EP0998542A1

EP0998542A1 - Device and method for sealing levelling door aperture of a coke oven chamber

Info

Publication number: EP0998542A1
Application number: EP98940145A
Authority: EP
Inventors: Hans-Josef Giertz; Friedrich-Wilhelm Cyris; Friedrich Huhn; Franz Liesewitz
Original assignee: Deutsche Montan Technologie GmbH
Current assignee: Deutsche Montan Technologie GmbH
Priority date: 1997-07-08
Filing date: 1998-07-06
Publication date: 2000-05-10
Anticipated expiration: 2018-07-06
Also published as: US6918999B1; JP3961766B2; UA51795C2; CN1133712C; AU743802B2; CN1262700A; WO1999002625A1; RU2194068C2; DE19729032C1; DE59805721D1; ATE224940T1; ZA985936B; EP0998542B1; KR20010021603A; AU8856498A; TW567224B; JP2001510855A; KR100476151B1

Abstract

The invention relates to a device for sealing a leveling door aperture of a coke oven chamber when loading bulk coking coal. The device includes a housing and a leveling door aperture, a leveling arm, composed of at least side panels and cross spacers connecting the side panels, is guided through the housing and the leveling door aperture. The leveling arm supports means for sealing a cross-sectional area of the leveling door aperture or upstream the leveling door aperture. A controllable or adjustable exhauster is joined to the housing and a measurement point is provided for flow rate measurement.

Description

Device and method for sealing a leveling door opening of a coke oven caromer

15. The invention relates to a device and a method for sealing a leveling door opening of a coke oven chamber according to the preamble of claims 1 and 15, respectively.

When coking hard coal, the coking coal is usually filled into the coke oven chamber through filling holes in the chamber ceiling. With this so-called loading in bulk operation, pouring cones are formed under the filling holes, which have to be leveled during the filling process with a leveling device in order to fully utilize the chamber space and to leave free discharge space for the filling gases below the chamber ceiling.

The device required for leveling, with a leveling rod that can be moved into the furnace chamber from the outside through a so-called leveling door opening, is usually mounted on the coke press machine referred to below as the printing machine. This printing machine can be moved along the coke oven battery from the coke oven chamber to the coke oven chamber in order to use a pressure rod to remove the fully cooked coke cake from the

Push the furnace chamber out to the opposite side of the coke oven and then use the leveling device to charge the coking coal when the coke oven chamber is loaded again level. Furthermore, the printing press has actuating devices for opening and closing or locking the coke oven chamber doors located on the machine side and the leveling doors closing the leveling door opening.

DE 33 40 067 C2 discloses a sealing device for the leveling door opening with a housing which can be sealingly connected to the leveling opening and from which a transfer pipe branches off to an adjacent coke oven chamber.

DE-AS 11 27 868 discloses a device for preventing the filling gases from escaping through the leveling opening with a tube surrounding the leveling rod, the length of which is approximately equal to the distance between two adjacent cross bars of the leveling rod.

In US 22 68 316 sealing plates are described which seal the gap between the leveling door opening and the leveling rod during the pianing.

It is known from DE 23 64 458 C3 to connect a housing, through which the leveling rod is guided, to the leveling door opening in a sealing manner during the leveling process. This housing is connected to both a pressure blower and a suction blower. With the pressure blower is over

Nozzles of air are blown in the direction of the leveling door opening and extracted there with the suction fan. The suction can be adjusted with a throttle in such a way that an air seal is to be created in the housing outside the leveling door opening, which should prevent gases and flames from escaping from the leveling door opening. In this way, a closed space is to be created in front of the leveling door opening, in which a pressure builds up corresponding to the pressure in the coke oven chamber, so that there is no noticeable pressure difference between the coke oven chamber and the space in front of the leveling door opening. This device prevents filling gases from entering the leveling door opening. However, a great deal of equipment is required. The setting of the suction with a throttle is relatively imprecise, so that under certain circumstances air is blown into the coke oven chamber or filler gases are sucked out of the coke oven chamber.

The invention has for its object to provide simple devices and methods that ensure a closed space outside the bulldozer opening and thus prevent the emissions of filler gases through the bulldozer opening.

This object is achieved with respect to a device by the features of independent device claims 1 and 9 and with regard to a method by claim 15.

Further training is listed in the subclaims.

The invention is based on the basic idea that the negative pressure present in the coke oven chamber during filling with coking coal is also maintained in the area of the leveling door.

In a space in front of the open or in front of and / or in the leveling door opening, a seal is achieved which corresponds in its sealing function to a closed leveling door. The area in front of and / or in the leveling gate opening is either by fluidic measures, i. H.

Equalization of pressure in front of and behind the leveling door opening, which achieves a flow dead zone, or possible by mechanical sealing of the leveling rod. The suction fan according to claim 1 is - preferably - set such that a flow in the space in front of the leveling door opening no longer occurs. This creates a flow dead zone in the space in front of and / or in the leveling door opening. The flow in this area is measured at a measuring point and the measuring signal is used to regulate or control the suction fan.

It is also possible to adjust the suction fan so that a slight intake of ambient air into the coke oven chamber, which only slightly impairs the filling gas extraction, can take place. In any case, no fill gas emissions occur at the leveling door opening even with this driving style.

It is also possible to connect the suction fan outlet to an adjacent coke oven chamber. In this mode of operation, the negative pressure of the neighboring coke oven chamber is also used. In this case, the suction is operated in such a way that filling gases are sucked into the neighboring furnace.

According to claim 3, the space in front of the leveling door opening is closed by mechanical sealing in such a way that no filling gases can escape. The leveling rod is sealed at the top and bottom by the sealing plates. The leveling rod is sealed at the side by sealing strips. This sealing of the leveling rod from the outside in combination with the crossbars forms a closed hollow box, since the sealing plates seal at least the area of two crossbars.

The sealing plates can be mounted such that they rest on the side bars, on the cross bars or on side and cross bars of the leveling rod. However, you can also use a pressure medium, e.g. B. springs are pressed against the side webs of the leveling bar. The reinforcement of the seal by the sealing strips on the side bars of the leveling rod, e.g. B. by means of springs is also possible.

The sealing plates can also be arranged in the housing in such a way that they are pressed against the leveling bar by the vacuum present within the leveling bar, which likewise increases the sealing effect.

The sealing plates can be provided with roundings and / or bevels on their edges. This prevents the leveling rod from hitting the edges of the sealing plates during the leveling process. It is also possible to divide the sealing sheet into several segments. As a result, the sealing plate can remove any unevenness in the leveling rod and

Seal cross-sectional changes better.

It is also possible to arrange several sealing plates and sealing strips one behind the other within the housing. This also increases the sealing effect.

The sealing plates can be equipped with abrasives for better durability. The housing can be dispensed with when using sealing plates, since a housing is formed by the sealing plates and the side webs of the leveling rod.

The leveling coal collecting container can be arranged anywhere outside the area of the sealing plates.

According to claim 9, a seal of the inner cross section of the leveling rod is provided between the side webs. These sealing elements must be designed so that they can avoid the crossbars of the leveling rod. The space between the side bridges of the The leveling rod and the housing are sealed by one or more sealing strips arranged one behind the other.

The simplest option is to arrange pendulum flaps in the housing. The pendulum flaps can be hanging in z. B. one-piece flap design can be arranged in the housing. They seal the cross section between the side bars of the leveling bar. If the leveling rod moves, the crossbars of the leveling rod press against the pendulum flap when approaching and touching it. The pendulum flap becomes

Pushed side and lies sealingly against the upper edge of the crossbar of the leveling bar. If the leveling rod continues to move, the swing flap swings back into the space between the side bars and seals it until the next cross bar is reached.

Another option would be to seal the inner cross-section of the leveling rod with cellular wheels. Cell wheels are arranged in a cell wheel housing above and / or below the leveling bar in such a way that the cell wheel blades engage in an overlapping manner in the space between the side bars of the leveling bar. If the leveling rod moves, the crosswheels cause the cell wheels to rotate.

The lower cellular wheel housing can be equipped with a coal discharge for the leveling coal.

The cellular wheel can also be dimensioned such that the cellular wheel wings, like the pendulum flaps, seal the entire cross section between the side webs of the leveling rod. In this case, a sealing plate is arranged in the lower part of the housing opposite the cellular wheel, which seals at least the area of two transverse webs of the leveling rod and can also consist of the bottom plate of a housing surrounding the leveling rod. Another possibility of the inner leveling rod seal is the installation of movable rollers in a roller housing. The rollers are dimensioned such that they take up and seal the entire cross-section between the side bars of the leveling bar. The rollers can move up and down within the roller housing, thus avoiding the crossbars of the leveling bar.

Of course, the seals can be arranged several times in the housing. It is also possible to combine the suction fan with a seal by means of sealing plates and / or movable sealing elements.

The housing can also be made so large that the leveling flap can be opened or locked within the housing.

The above-mentioned components, as well as those claimed and described in the exemplary embodiments and to be used according to the invention, are subject to

Shape design, material selection and technical conception do not have any special exceptions, so that the selection criteria known in the respective area of application are used without restriction.

Further details, features and advantages of the subject matter of the invention result from the following description of the accompanying drawing, in which - by way of example - preferred embodiments of the device for sealing a leveling door opening are shown. The drawing shows:

Fig. 1 is a perspective view of an embodiment of the sealing device with suction fan; 2 shows a second embodiment with sealing plates and sealing strips;

Fig. 3 shows a third embodiment with swing flaps;

Fig. 4 shows a fourth embodiment with a cellular wheel and a sealing plate as well

5 shows a fifth embodiment in which a plurality of sealing plates are combined with a suction fan.

1 shows a housing 1 which is open at both opposite ends and into which a leveling rod 2 with top and bottom webs 3 and cross webs 4 which is open at the top and bottom can move in and out. The housing 1 is close to

Scope of a leveling door opening 5 of a coke oven chamber 6 with a riser pipe 7. A suction blower 8 with a suction line 15 connected to the housing 1 is arranged above the housing 1. By means of a regulation or control, not shown, the suction fan is adjusted so that essentially no gas flow takes place in the housing 1 near the leveling door opening 5 of the coke oven chamber 6; rather, a flow dead zone 9 is formed in an end of the housing 1 or the one that is between the interior of the coke oven chamber 6 and the end of the housing door opening 5

Suction line 15 located area. The filling gases are sucked out through the riser pipe 7 while ambient air is sucked out through the suction fan 8 and does not get into the coke oven chamber. Any flow is detected at a measuring point 10.

2 that sealing plates 11 and 12 are arranged in the housing 1 above and below the leveling rod 2, which is open at the top and bottom. The sealing plates 11 and 12 lie on the upper and lower edges of the side webs 3 and the cross webs 4 of the leveling rod 2 and protrude from the Housing 1 at its end remote from the coke oven chamber 6. The sealing plates 11 and 12 are made longer than the distance between two cross webs 4 serving as leveling bars. As a result, the leveling door opening 5 is always sealed to the outside by at least one cross bar 4 of the leveling bar 2 during the leveling process. The side webs 3 of the leveling rod 2 are also sealed by sealing strips 13 and 14.

The seal with pendulum flaps can be seen from FIG. 3. In the housing 1, two swing flaps 20 and 21 are shown, which can swing about axes of rotation 22 and 23, respectively. The remaining reference symbols have the same meaning as in the previous figures. The swing flaps 20 and 21 seal the inner cross section between the side webs 3 of the leveling rod 2 and cross-sectional areas of the housing above and below. The side webs 3 of the leveling rod 2 are sealed to the outside by sealing strips 13, 14 and 24, 25. If the leveling rod 2 moves into the coke oven chamber 6, the crosspieces 4 abut against the

Pendulum flaps 21 and 22. The pendulum flaps evade the crossbars 4 by a pendulum movement and, after swinging back, seal the area between the side webs 3 of the leveling bar 2 again.

4 shows a four-winged cellular wheel 40 in a cellular wheel housing 41, the cellular wheel blades 42 of which cover the entire cross section between the side webs 3 of the leveling rod 2. Below the leveling rod 2, a sealing plate 43 is arranged, which on the lower edges of the

Side webs 3 is sealing. When the leveling rod 2 is extended or retracted, the cellular wheel 40 is rotated further by 90 ° each time a transverse web 4 passes under the cellular wheel axis. In Fig. 5 different sealing options are combined. 5 that the leveling rod 2 is sealed with additional sealing plates 50 and 51 located above and below. In addition, a suction fan 8 is connected to the housing 1 via the suction line 15. The remaining reference symbols have the same meaning as in the previous figures. A leveling coal collecting container 52 is arranged under the housing 1.

Reference list

1 housing

2 leveling bars

3 side bars

4 cross bars (leveling bars)

5 leveling door opening

6 coke oven chamber

7 riser pipe

8 suction fans

9 Current dead zone

10 measuring point

11 sealing plate

12 sealing plate

13 sealing strip

14 sealing strip

15 Suction line 0 Swing flap 1 Swing flap 2 Rotation axis 3 Rotation axis 4 Sealing strip

25 Sealing strip 0 Cell wheel 1 Cell wheel housing 2 Cell wheel wing 3 Sealing plate 4 Sealing strip 0 Sealing plate 1 Sealing plate 2 Bulldozer collection container

Claims

claims

1. Device for sealing a leveling door opening of a coke oven chamber during coking coal loading in bulk operation with a housing that can be connected to the leveling door opening in a sealing manner, through which a cross bars, at least consisting of side bars (3) and connecting them

(4) Existing leveling rod (2) is guided, on which means are provided which seal the cross-sectional area of the open or in front of the opened leveling door, characterized in that a controllable or controllable suction fan (8) is connected to the housing (1) and a measuring point (10) is provided for the flow measurement.

2nd Apparatus according to claim 1, characterized in that the outlet of the suction fan (8) is connected to an adjacent coke oven chamber.

3. Device according to claim 1 or 2, characterized in that in the housing (1) sealing plates (11, 12) are arranged which the leveling rod (2) from above and below at least over the area of two crosspieces (4) seal and sealing strips (13, 14) are arranged, which seal the side webs (3) of the leveling rod (2).

4. The device according to claim 3, characterized in that the sealing plates (11, 12) and the sealing strips (13, 14) are provided with a pressing means.

Device according to Claim 3, characterized in that the sealing plates (11, 12) are held in the housing (1) in such a way that they are pressed against the leveling rod (2) by negative pressure.

6. The device according to claim 3, characterized in that the sealing plates (11, 12) have roundings and / or bevels.

7. The device according to claim 3, characterized in that a plurality of sealing plates (11, 12, 50, 51) and sealing strips (13, 14, 24, 25) are arranged one behind the other in the thrust direction of the leveling rod.

8. The device according to claim 3, characterized in that the housing (1) by the sealing plates (11, 12) and the side webs (3) of the leveling rod (2) is formed.

9. Device for sealing a bulldozer opening

Coke oven chamber during coking coal loading in bulk operation with a sealable housing that can be connected to the leveling door opening, through which a leveling rod (2) consisting at least of side webs (3) and transverse webs (4) connecting them is guided, on which

Means are provided which seal the cross-sectional area of the opened or in front of the opened leveling door, characterized in that in the housing (1) movable sealing elements which seal the inner cross section of the leveling rod (2) between the side webs (3).

10. The device according to claim 9, characterized in that the movable sealing element is at least one swing flap (20).

11. The device according to claim 9, characterized in that the movable sealing element is at least one cellular wheel (40).

12. The apparatus according to claim 11, characterized in that in the housing (1) additionally at least one sealing plate (50) is arranged.

13. The apparatus according to claim 9, characterized in that the movable sealing element is at least one movable roller.

14. The apparatus according to claim 1 to 13, characterized in that the suction fan (8) and / or sealing plates (11, 12, 50, 51) and / or movable sealing elements are arranged on the housing.

15. A method for sealing a leveling door opening of a coke oven chamber during the leveling process, in which a housing through which the leveling rod is guided is sealingly connected to the leveling door opening and a gas extraction is carried out in the housing, characterized in that the gas extraction is due to an in the area the

The flow measurement carried out on the leveling door is regulated or controlled in such a way that gas flow essentially no longer occurs there.