CN216106765U - Raw coke oven gas pressure adjusting device for coke oven carbonization chamber - Google Patents

Abstract

The utility model discloses a coke oven carbonization chamber raw coke oven gas pressure regulating device, which comprises a liquid level regulating device, a bridge pipe and a regulating valve, wherein the liquid level regulating device and the bridge pipe are communicated; the lower end of the bridge pipe is connected with a liquid level adjusting device, the adjusting valve penetrates through the bridge pipe to be communicated with the adjusting device, the adjusting valve can move up and down, and the bottom of the adjusting valve can be in sealing contact with the bottom opening of the liquid level adjusting device; and a gas-liquid flow channel is arranged in the liquid level adjusting device, and the liquid passes through the liquid level to open or close the channel so as to adjust the flow of the raw coke oven gas. Compared with the prior art, the device can effectively control the discharge of the raw coke oven gas and the liquid through the combination of the liquid level regulating device and the regulating valve, thereby regulating the pressure in the ascending pipe connected with the bridge pipe and the coke oven carbonization chamber and solving the problem of unstable raw coke oven gas pressure fluctuation in the coke oven carbonization chamber.

Description

Raw coke oven gas pressure adjusting device for coke oven carbonization chamber

Technical Field

The utility model belongs to the technical field of raw gas pressure regulation of a single carbonization chamber of a coke oven, and particularly relates to a raw gas pressure regulating device of the single carbonization chamber, which can be used for upgrading the coke oven on line and can be used for a newly-built coke oven.

Background

Coke ovens, a furnace typically built of refractory bricks and refractory blocks, are used to char coal to produce coke. The kiln for making coke by using coal is a main thermal equipment for coking. The modern coke oven is a horizontal chamber type coke oven which mainly aims at producing metallurgical coke and can recover coking chemical products, and comprises an oven body and accessory equipment. The coke oven body consists of a furnace top, a combustion chamber, a carbonization chamber, a chute area, a regenerator and the like, and is connected with a chimney through a flue. Modern coke ovens are generally the same in basic structure, but can be divided into many types due to different coal charging modes, heat supply modes and fuels used.

At present, the pressure control of the raw gas of the coke oven carbonization chamber in on-line operation is mainly realized by pressure regulation of a segmented gas collecting pipe. In the coke oven production, because the production states of all the coking chambers are different, the pressure fluctuation of the raw coke oven gas in a single coking chamber is easy to cause. In the initial stages of coal charging and coking, the crude gas generation amount is large, and the pressure at the bottom of a coking chamber is overlarge, so that the crude gas inorganically leaks outwards at a plurality of positions of a coal charging hole, a furnace wall, a furnace door, a furnace body and the like of the coke oven, and the atmospheric environmental pollution is caused; in the final stage of coking, the generation amount of raw gas is small, negative pressure is easily formed at the bottom of the coking chamber, air is leaked and sucked into the coking chamber, coke burning loss and furnace body damage are caused, and the coke quality is reduced.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: aiming at the defects of the prior art, the utility model provides a pressure regulating device for a coking chamber of a coke oven.

The technical scheme is as follows: in order to achieve the purpose, the utility model adopts the following technical scheme:

a coke oven carbonization chamber raw coke oven gas pressure regulating device comprises a liquid level regulating device, a bridge pipe and a regulating valve which are communicated; the lower end of the bridge pipe is connected with a liquid level adjusting device, the adjusting valve penetrates through the bridge pipe to be communicated with the adjusting device, the adjusting valve can move up and down, and the bottom of the adjusting valve can be in sealing contact with the bottom opening of the liquid level adjusting device; and a gas-liquid flow channel is arranged in the liquid level adjusting device, and the liquid passes through the liquid level to open or close the channel so as to adjust the flow of the raw coke oven gas.

Preferably, the liquid level adjusting device comprises an outer cover and a tooth socket cup arranged inside the outer cover, the tooth socket cup comprises a liquid outlet at the bottom, a cup body and a liquid leakage groove inside, a first gap is reserved between the inner wall of the outer cover and the outer wall of the cup body, and the gap is communicated with an opening at the bottom of the outer cover; the liquid leakage groove is communicated with the bridge pipe, gas and liquid coming down from the bridge pipe can be discharged from an opening formed in the side wall of the liquid leakage groove, a second gap is reserved between the inner wall of the cup body and the outer wall of the liquid leakage groove, and the gap is communicated with the liquid outlet; the first gap and the second gap are communicated and sealed at the top; the bottom that the governing valve passed the weeping groove, and the bottom of governing valve can be with liquid outlet sealing contact.

Further preferably, the opening is a strip-shaped opening with the same upper and lower width, or a strip-shaped opening with the width gradually increasing from top to bottom, and the openings are uniformly distributed on the lower part of the side wall of the liquid leakage groove. The width presents from last to crescent, indicates that the width can the gradient change, and every gradient can adopt the trapezoidal form structure (trapezoidal vertical bar form trompil) of side slope, also can adopt the unanimous rectangle structure of the vertical width of side (step vertical bar form trompil), perhaps the width can irregularly change, perhaps whole trompil is the shape of thin type of falling V etc. as long as can reach the width and present from last to gradually crescent purpose down.

Further preferably, the bottom of the opening is flush with the bottom of the leakage groove.

Further preferably, the top end of the liquid leakage groove is higher than the top end of the cup body, and the bottom end of the liquid leakage groove is higher than the liquid outlet.

Preferably, the regulating valve is a piston actuating mechanism and comprises an inner piston device at the bottom, a piston connecting rod at the middle part and a piston regulating cylinder at the top; the inner piston device comprises a piston head, an inner piston and a piston inner sleeve, the piston inner sleeve is sleeved outside the inner piston, a piston connecting rod penetrates through the top of the piston inner sleeve and is fixedly connected with the inner piston, the lower end of the piston inner sleeve is fixedly connected with the piston head, a circle of continuous horizontal protrusions are arranged on the inner wall of the piston inner sleeve, and through holes are formed in the side wall of the piston inner sleeve above the protrusions; the lower ends of the piston head and the piston inner sleeve are provided with openings, the outer wall of the inner piston is tightly contacted with the raised circle of side wall and can slide up and down under the drive of the piston connecting rod, and liquid can pass through the inner part of the inner piston; the piston head is capable of sealing contact with the bottom opening of the fluid level adjustment device.

Preferably, the upper end of the piston inner sleeve is sleeved with the piston outer sleeve, the top end of the piston inner sleeve is fixedly and hermetically connected with the top end of the piston outer sleeve, a gap is reserved between the side walls of the inner sleeve and the outer sleeve, and the lower end of the piston outer sleeve is opened.

Further preferably, the top end of the piston inner sleeve and the top end of the piston outer sleeve are fixedly and hermetically connected through a sealing cover, and the piston connecting rod penetrates through the sealing cover.

Further preferably, the position of the projection is higher than the lower end opening of the piston outer sleeve.

Further preferably, a connecting block is fixed on the inner wall of the inner piston, the piston connecting rod is fixedly connected with the inner piston through the connecting block, and a gap for liquid to pass through is reserved between the connecting block and the inner wall of the inner piston.

Further preferably, the top and the bottom of the inner piston are both in an open state, or one is in an open state and the other is in an open state.

Further preferably, the through holes are strip-shaped through holes with the same width from top to bottom, or strip-shaped holes with the width gradually increasing from top to bottom, and the through holes are uniformly distributed on the side wall of the inner sleeve of the piston. The width presents from last to crescent, indicates that the width can the gradient change, and every gradient can adopt the trapezoidal form structure (trapezoidal vertical bar form trompil) of side slope, also can adopt the unanimous rectangle structure of the vertical width of side (step vertical bar form trompil), perhaps the width can irregularly change, perhaps whole trompil is the shape of thin type of falling V etc. as long as can reach the width and present from last to gradually crescent purpose down.

Further preferably, the height of the side wall of the inner piston is greater than the height of the side wall of the inner sleeve of the piston above the protrusions.

Further preferably, the piston connecting rod is connected with the piston adjusting cylinder through a connecting piece; and a fire baffle plate is arranged on the side surface of the piston adjusting cylinder.

As a preferable or improved scheme:

the top of the shell of the liquid level adjusting device is provided with an outer cover washing nozzle penetrating through the shell, and the side wall of the shell is provided with an observation hole.

And the top of the bridge pipe is provided with a low-pressure ammonia water nozzle, a high-pressure ammonia water nozzle and a high-low pressure ammonia water nozzle. The low-pressure ammonia water nozzle is arranged near the inlet of the bridge pipe and penetrates through the pipe wall of the bridge pipe; the top of the bridge pipe is provided with a flange cover, and the high-pressure ammonia water nozzle and the high-low pressure ammonia water nozzle are symmetrically arranged on the flange cover.

And the pipe wall of the bridge pipe is also provided with an ammonia water fast injection port, a cleaning hole and/or a pressure sampling pipe.

The device also comprises a support, wherein the bridge pipe and the regulating valve are fixed on the support, and the regulating valve is fixed with the support through a supporting device.

Still be equipped with valve positioner and changer on the support, the valve positioner is connected with the governing valve.

In the device, the liquid in the liquid level regulating device can open or close the channel through the height of the liquid level to regulate the flow of the raw coke oven gas, thereby regulating the pressure of the raw coke oven gas in the ascending pipe and the coke oven carbonization chamber which are connected with the bridge pipe. Meanwhile, the opening at the bottom of the liquid level adjusting device is opened or closed by combining the up-and-down movement of the adjusting valve, and the aim of quickly adjusting the pressure of the crude gas in the carbonization chamber is fulfilled by quickly discharging liquid.

During the production of the coke oven, a large amount of dust, tar and tar residues are deposited on the upper part and the inner wall of the outer protection cover, and a cleaning device is added, so that the problems can be effectively solved.

The low-pressure ammonia water nozzle is used for dedusting and cooling coke oven gas, cooling the bottom area of the bridge pipe and spraying high-pressure and low-pressure ammonia water, is favorable for forming negative pressure between the bridge pipe and the gas collecting pipe by a high-pressure injection effect in the coke oven coal charging process, is matched with the gas collecting pipe negative pressure process operation, and can effectively control the unorganized smoke dust overflow in the coke oven coal charging process so that the coke oven production meets the environmental protection requirement;

due to the design of the tooth socket cup, when the liquid level is lower than the top height of the opening, liquid and raw gas can flow out of the opening simultaneously, the area of the opening is smaller and smaller as the liquid level rises, and the outflow of the raw gas is also reduced gradually, so that the gas pressure is prevented from being reduced too fast; when the liquid level is higher than the top of the opening, the liquid seals the opening, and the raw coke oven gas cannot be discharged, so that the air pressure can be gradually increased.

The opening is preferably a strip-shaped opening, and the width of the opening is gradually changed from top to bottom in a gradient manner. Along with the rise of the liquid level, the opening area of the opening is rapidly reduced, and the quantity of the raw coke oven gas flowing out of the opening can be rapidly reduced, so that the pressure of the raw coke oven gas can be rapidly raised; on the contrary, along with the reduction of the liquid level, the amount of the raw gas flowing out of the opening can be increased more quickly, so that the pressure of the raw gas can be reduced quickly;

and the pipe wall of the bridge pipe is also provided with an ammonia water fast injection port, a switch and/or a pressure sampling pipe. The ammonia water fast injection port is used for rapidly increasing the liquid level when the liquid level in the tooth socket cup is too low; the pressure tapping pipe is used for measuring and tapping coke oven gas.

The piston actuating mechanism and the inner piston device are designed to effectively adjust the liquid flow, the piston head can be matched with openings of other parts to play a role of a valve core, and the purposes of closing and slowly and quickly releasing liquid can be achieved by combining the piston actuating mechanism and the inner piston device; in addition, the design of the piston outer sleeve can be matched with other parts, and when the piston head and the piston inner sleeve integrally move upwards, the through hole in the piston inner sleeve cannot be shielded by other parts. Meanwhile, the outer sleeve of the piston is not provided with a hole, and the sealing state of other parts cannot be damaged when the relative position of the outer sleeve of the piston and other parts is changed. Finally, the upper part of the device is connected with the piston adjusting cylinder, the lower part of the device is connected with the inner piston mechanism, and the integrated design can eliminate the falling-off phenomenon of the piston actuating mechanism in the operation, reduce the faults of the equipment in the operation and be beneficial to the maintenance of the crude gas pressure adjusting equipment of the single carbonization chamber in the later period.

Preferably, the through holes in the inner wall of the piston inner sleeve are strip-shaped through holes, and the width of the through holes gradually increases from top to bottom. Along with the rising of the inner piston, the opening area of the through hole is rapidly reduced, and the liquid discharge amount is rapidly reduced; on the contrary, the opening area of the through hole is rapidly increased along with the reduction of the inner piston, and the liquid discharge amount is also rapidly increased.

The device utilizes the ammonia water required to be sprayed in the crude gas cooling process, is provided with the ammonia water liquid level adjusting device and the adjusting valve, and the ammonia water liquid level in the device is automatically adjusted according to the crude gas pressure, so that the flow section of the crude gas is automatically changed according to the crude gas flow, and the crude gas pressure in the carbonization chamber is kept basically constant. The pressure of the raw coke oven gas in the coking chamber can be flexibly adjusted, the problem that the pressure in a single coking chamber is unstable due to the fact that the raw coke oven gas generates different flows in the whole coking period and fluctuates violently is solved, the pressure of the raw coke oven gas in the coking chamber is changed into micro positive pressure, the external leakage rate of the raw coke oven gas in the coking chamber is reduced, the leakage rate of external air leaking into the coking chamber is also reduced, the burning loss rate of coke in the coking chamber is reduced, the quality of the coke is improved, and the environmental protection benefit is improved. The device can be used for additionally installing the device to the existing coke oven which is not subjected to raw gas pressure regulation and control of the coking chamber to realize online upgrading and reconstruction, and can also be installed on a newly-built coke oven.

Has the advantages that: compared with the prior art, the device can effectively control the discharge of the raw coke oven gas and the liquid through the combination of the liquid level regulating device and the regulating valve, thereby regulating the pressure in the ascending pipe connected with the bridge pipe and the coke oven carbonization chamber and solving the problem of unstable raw coke oven gas pressure fluctuation in the coke oven carbonization chamber. In addition, the pressure regulating device of the carbonization chamber is externally arranged on the gas collecting pipe, and can provide convenience for subsequent equipment maintenance.

Drawings

FIG. 1 is a schematic view of the main structure of the device of the present invention (the components of the liquid level regulating device are labeled).

Fig. 2 is a schematic view of the main structure of the device of the present invention (bridge pipe parts are labeled).

Fig. 3 is a schematic view of the main structure of the device of the present invention (piston actuator parts are labeled).

Fig. 4 is a left side view of the device of the present invention.

Fig. 5 is a right side view of the device of the present invention.

FIG. 6 is a view showing the structure of an opening in the side wall of a leakage tank in the apparatus of the present invention.

FIG. 7 is a schematic view of the structure of the through hole in the side wall of the inner sleeve of the piston in the device of the present invention.

FIG. 8 is a schematic view of the flow of liquid in the inner piston device of the apparatus of the present invention.

Detailed Description

The present invention is further described below with reference to the accompanying drawings, but is not intended to limit the scope of the present invention. Modifications and substitutions to the disclosed structure may be made without departing from the spirit and scope of the utility model.

Example 1

A coke oven carbonization chamber raw gas pressure regulating device is shown in figures 1-5 and comprises a liquid level regulating device 1, a bridge pipe 2 and a regulating valve 3 which are communicated; the lower end of the bridge pipe 2 is connected with a liquid level adjusting device 1, the adjusting valve 3 penetrates through the bridge pipe 2 to be communicated with the adjusting device 1, the adjusting valve 3 can move up and down, and the bottom of the adjusting valve 3 can be in sealing contact with the bottom opening of the liquid level adjusting device 1; the liquid level adjusting device 1 is internally provided with a gas-liquid flow channel, and the liquid passes through the liquid level to open or close the channel so as to adjust the flow of the raw coke oven gas.

The liquid level adjusting device 1 comprises an outer cover 11 and a tooth space cup 12 arranged inside the outer cover 11, wherein the tooth space cup 12 comprises a liquid outlet 121 at the bottom, a cup body 122 and a liquid leakage groove 123 inside, a first gap 1-1 is reserved between the inner wall of the outer cover 11 and the outer wall of the cup body 122, and the gap is communicated with an opening 111 at the bottom of the outer cover 11; the liquid leakage groove 123 is communicated with the bridge pipe 2, gas and liquid coming down from the bridge pipe 2 can be discharged from an opening 124 formed in the side wall of the liquid leakage groove 123, a second gap 1-2 is reserved between the inner wall of the cup body 122 and the outer wall of the liquid leakage groove 123, and the gap is communicated with the liquid outlet 121; the first gap 1-1 and the second gap 1-2 are communicated and the top is sealed; the regulating valve 3 penetrates through the bottom of the leakage groove 123, and the bottom of the regulating valve 3 can be in sealing contact with the liquid outlet 121.

As shown in fig. 6, the openings 124 are vertical strip-shaped openings, and are uniformly distributed on the lower portion of the side wall of the liquid leaking tank 123, and the width of the openings is gradually increased from top to bottom (in this embodiment, each gradient is a rectangular structure with the same vertical width at the side edge, that is, the openings are step-shaped vertical strip-shaped openings as a whole). The bottom of the opening 124 is flush with the bottom of the weep channel 123. The top end of the leakage groove 123 is higher than the top end of the cup body 122, and the bottom end is higher than the liquid outlet 121.

The adjusting valve 3 is a piston actuating mechanism and comprises an inner piston device 31 at the bottom, a piston connecting rod 32 in the middle and a piston adjusting cylinder 33 at the top; the inner piston device 31 comprises a piston head 311, an inner piston 312 and a piston inner sleeve 313, the piston inner sleeve 313 is sleeved outside the inner piston 312, the piston connecting rod 32 penetrates through the top of the piston inner sleeve 313 and is fixedly connected with the inner piston 312, the lower end of the piston inner sleeve 313 is fixedly connected with the piston head 311, a circle of continuous horizontal direction protrusions 315 are arranged on the inner wall, and through holes 316 are arranged on the side wall of the piston inner sleeve 313 above the protrusions 315; the lower ends of the piston head 311 and the piston inner sleeve 313 are both provided with openings, the outer wall of the inner piston 312 is tightly contacted with one circle of side wall of the protrusion 315 and can slide up and down under the driving of the piston connecting rod 32, and liquid can pass through the inner part of the inner piston 312; the piston head 311 can be in sealing contact with the liquid outlet 121 of the liquid level adjustment device 1.

The upper end of the piston inner sleeve 313 is sleeved with a piston outer sleeve 314, the top end of the piston inner sleeve 313 and the top end of the piston outer sleeve 314 are fixedly and hermetically connected through a sealing cover 317, a gap is reserved between the side walls of the inner sleeve and the outer sleeve, the lower end of the piston outer sleeve 314 is opened, and the piston connecting rod 32 penetrates through the sealing cover 317. The protrusion 315 is positioned higher than the lower end opening of the piston outer sleeve (314).

A connecting block is fixed on the inner wall of the inner piston 312, the piston connecting rod 32 is fixedly connected with the inner piston 312 through the connecting block, and a gap for liquid to pass through is reserved between the connecting block and the inner wall of the inner piston 312. The top and bottom of the inner piston 312 are both open, or both are vented, or one is open and the other is vented.

As shown in fig. 7, the through holes 316 are vertical strip-shaped through holes uniformly distributed on the side wall of the inner sleeve 313 of the piston, and the width of the through holes is gradually increased from top to bottom (in this embodiment, each gradient is a rectangular structure with the same vertical width at the side edge, that is, the whole through hole is a step-shaped vertical strip-shaped hole). The height of the side wall of the inner piston 312 is greater than the height of the side wall of the inner sleeve 313 above the protrusion 315. The piston connecting rod 32 is connected with the piston adjusting cylinder 33 through a connecting piece 2-3; the side of the piston adjusting cylinder 33 is provided with a fire damper 34.

The top of the shell of the liquid level adjusting device 1 is provided with an outer cover washing nozzle 112 penetrating through the shell, and the side wall of the shell is provided with an observation hole 113. The top of the bridge pipe 2 is provided with a low-pressure ammonia water nozzle 21, a high-pressure ammonia water nozzle 22 and a high-low pressure ammonia water nozzle 23. The low-pressure ammonia water nozzle 21 is arranged near the inlet of the bridge pipe 2 and penetrates through the pipe wall of the bridge pipe 2; the top of the bridge pipe 2 is provided with a flange cover, and the high-pressure ammonia water nozzle 22 and the high-low pressure ammonia water nozzle 23 are symmetrically arranged on the flange cover. The pipe wall of the bridge pipe 2 is also provided with an ammonia water fast injection port 25, a cleaning hole 26 and/or a pressure sampling pipe 27.

The device also comprises a support 4, the bridge pipe 2 and the regulating valve 3 are both fixed on the support 4, and the regulating valve 3 is fixed with the support 4 through a supporting device 41. The support 4 is also provided with a valve positioner 42 and a transmitter 43, and the valve positioner 42 is connected with the regulating valve 3.

The device of the utility model has the following using method and working principle:

at the initial stage of coal charging and coking, the crude gas generation amount is large, the pressure at the bottom of the coking chamber is increased, at the moment, the piston actuating mechanism 3 is started, the inner piston 312 moves upwards under the action of the piston connecting rod 32 and the piston adjusting cylinder 33 until the piston head 311 is driven to move upwards, the liquid outlet 121 is opened, the ammonia water in the tooth socket cup 12 flows out through the opening 111, the liquid level is reduced, the part of the strip-shaped opening 124 exposed out of the liquid level is gradually increased, so that the discharge amount of the crude gas through the second gap 1-2 and the first gap 1-1 is gradually increased, and finally, the crude gas amount in the bridge pipe 2, the ascending pipe connected with the bridge pipe and the coking chamber is reduced, and the pressure is reduced;

at the end of coking, the raw gas generation amount is small, at the moment, the piston actuating mechanism 3 is started, the piston head 311 moves downwards, the liquid outlet 121 is closed, the ammonia water nozzle sprays ammonia water, the ammonia water amount in the tooth socket cup 12 is gradually increased, and the part of the strip-shaped opening 124 exposed out of the liquid level is gradually reduced, so that the amount of the raw gas discharged through the second gap 1-2 and the first gap 1-1 is gradually reduced, and finally, the raw gas amount in the bridge pipe 2, the ascending pipe connected with the bridge pipe and the carbonization chamber is increased, and the pressure is increased.

The width of the strip-shaped opening 124 is gradually increased from top to bottom. Along with the rising of the liquid level in the tooth socket cup 12, the opening area of the strip-shaped opening hole 124 is rapidly reduced, and the amount of raw coke oven gas flowing out of the strip-shaped opening hole 124 can be rapidly reduced, so that the pressure of the raw coke oven gas can be rapidly raised; on the contrary, as the liquid level in the tooth socket cup 12 is reduced, the opening area of the strip-shaped opening 124 is rapidly increased, and the amount of raw coke oven gas discharged from the strip-shaped opening 124 can be rapidly increased, so that the pressure of the raw coke oven gas can be rapidly reduced; the ammonia water fast injection port 25 is used for rapidly increasing the liquid level when the liquid level in the tooth socket cup is too low;

the working principle of the piston actuating mechanism is as follows:

when the piston head 311 is at the bottom, the piston head 311 is in sealing contact with openings of other parts to seal liquid, when the liquid level is lower than the height of the top end of the side wall of the inner piston 312, the liquid cannot enter the inner piston 312, the piston actuating mechanism seals the liquid, and the pressure of raw coke oven gas is prevented from being reduced due to the liquid flowing out.

When the liquid level is higher than the top of the side wall of the inner piston 312, the liquid passes through the gap between the inner piston sleeve 313 and the outer piston sleeve 314, the through hole on the side wall of the inner piston sleeve 313 and the inner space of the inner piston 312 in sequence, and finally flows out from the bottom outlet, so that the pressure of the raw coke oven gas is reduced. When the pressure of the raw gas is reduced too fast, the piston actuator is started, the protrusion 315 of the inner piston 312 slides upwards, the top end position of the side wall of the inner piston 312 is gradually increased, the liquid amount entering from the through hole on the side wall of the inner sleeve 313 of the piston is gradually reduced, and when the top end position of the side wall of the inner piston 312 is higher than the liquid level position, the liquid is stopped to be discharged, so that the pressure of the raw gas is effectively adjusted.

When the pressure of the raw gas is too high and liquid needs to be discharged quickly, the inner piston 312 continues to move upwards, and when the top end of the inner piston reaches the bottom surface of the sealing cover 316, the inner piston sleeve 313 and the outer piston sleeve 314 are driven to move upwards integrally, so that the piston head 311 is driven to move upwards, the piston head is separated from the openings of other parts, the openings are opened, and the liquid is discharged quickly from the bottom, so that the purpose of quickly reducing the pressure is achieved.

Although the utility model has been described in detail hereinabove with respect to a general description and specific embodiments thereof, it will be apparent to those skilled in the art that modifications or improvements may be made thereto based on the utility model. Accordingly, such modifications and improvements are intended to be within the scope of the utility model as claimed.

Claims (19)

1. A coke oven carbonization chamber raw coke oven gas pressure regulating device is characterized by comprising a liquid level regulating device (1), a bridge pipe (2) and a regulating valve (3), which are communicated with each other; the lower end of the bridge pipe (2) is connected with the liquid level adjusting device (1), the adjusting valve (3) penetrates through the bridge pipe (2) to be communicated with the adjusting device (1), the adjusting valve (3) can move up and down, and the bottom of the adjusting valve can be in sealing contact with the bottom opening of the liquid level adjusting device (1); a gas-liquid flow channel is arranged in the liquid level adjusting device (1), and the liquid passes through the liquid level to open or close the channel to adjust the flow of the crude gas.

2. The coke oven carbonization chamber raw gas pressure regulating device as claimed in claim 1, wherein the liquid level regulating device (1) comprises an outer cover (11) and a tooth space cup (12) arranged inside the outer cover (11), the tooth space cup (12) comprises a liquid outlet (121) at the bottom, a cup body (122) and a liquid leakage groove (123) inside, a first gap (1-1) is left between the inner wall of the outer cover (11) and the outer wall of the cup body (122), and the gap is communicated with an opening (111) at the bottom of the outer cover (11); the liquid leakage groove (123) is communicated with the bridge pipe (2), gas and liquid coming down from the bridge pipe (2) can be discharged from an opening (124) formed in the side wall of the liquid leakage groove (123), a second gap (1-2) is reserved between the inner wall of the cup body (122) and the outer wall of the liquid leakage groove (123), and the gap is communicated with the liquid outlet (121); the first gap (1-1) and the second gap (1-2) are communicated, and the top part is sealed; the regulating valve (3) penetrates through the bottom of the liquid leakage groove (123), and the bottom of the regulating valve (3) can be in sealing contact with the liquid outlet (121).

3. The coke oven carbonization chamber raw gas pressure regulating device as claimed in claim 2, wherein the openings (124) are strip-shaped openings with uniform width from top to bottom, or are strip-shaped openings with gradually increasing width from top to bottom, and the openings (124) are uniformly distributed on the lower part of the side wall of the liquid leakage groove (123).

4. The coke oven coking chamber raw gas pressure regulating device according to claim 2, characterized in that the bottom of the opening (124) is flush with the bottom of the weep channel (123).

5. The coke oven coking chamber raw gas pressure regulating device according to claim 2, characterized in that the liquid leakage groove (123) has a top end higher than the top end of the cup body (122) and a bottom end higher than the liquid outlet (121).

6. The coke oven coking chamber raw gas pressure regulating device according to claim 1, characterized in that the regulating valve (3) is a piston actuator comprising a bottom inner piston device (31), a middle piston connecting rod (32) and a top piston regulating cylinder (33); the inner piston device (31) comprises a piston head (311), an inner piston (312) and a piston inner sleeve (313), the piston inner sleeve (313) is sleeved outside the inner piston (312), the piston connecting rod (32) penetrates through the top of the piston inner sleeve (313) and is fixedly connected with the inner piston (312), the lower end of the piston inner sleeve (313) is fixedly connected with the piston head (311), a circle of continuous horizontal protrusions (315) are arranged on the inner wall, and through holes (316) are formed in the side wall of the piston inner sleeve (313) above the protrusions (315); the lower ends of the piston head (311) and the piston inner sleeve (313) are both provided with openings, the outer wall of the inner piston (312) is tightly contacted with one circle of side wall of the bulge (315), and can slide up and down under the driving of the piston connecting rod (32), and liquid can pass through the inner part of the inner piston (312); the piston head (311) can be in sealing contact with the bottom opening of the liquid level adjusting device (1).

7. The coke oven carbonization chamber raw gas pressure regulating device as claimed in claim 6, wherein the upper end of the piston inner sleeve (313) is sleeved with a piston outer sleeve (314), the top end of the piston inner sleeve (313) is fixedly and hermetically connected with the top end of the piston outer sleeve (314), a gap is left between the side walls of the inner sleeve and the outer sleeve, and the lower end of the piston outer sleeve (314) is open.

8. The coke oven coking chamber raw gas pressure regulating device according to claim 6, characterized in that the top end of the piston inner sleeve (313) and the top end of the piston outer sleeve (314) are fixedly and hermetically connected through a sealing cover (317), and the piston connecting rod (32) passes through the sealing cover (317).

9. The coke oven coking chamber raw gas pressure regulating device according to claim 6, characterized in that the position of the protrusion (315) is higher than the lower end opening of the piston outer sleeve (314).

10. The coke oven coking chamber raw gas pressure regulating device according to claim 6, characterized in that a connecting block is fixed on the inner wall of the inner piston (312), the piston connecting rod (32) is fixedly connected with the inner piston (312) through the connecting block, and a gap for liquid to pass through is reserved between the connecting block and the inner wall of the inner piston (312).

11. The coke oven coking chamber raw gas pressure regulating device according to claim 6, characterized in that the top and the bottom of the inner piston (312) are both in an open state, or one is in an open state and the other is in an open state.

12. The coke oven carbonization chamber raw gas pressure regulating device as claimed in claim 6, wherein the through holes (316) are strip-shaped through holes with uniform upper and lower widths, or strip-shaped openings with gradually increasing widths from top to bottom, and the through holes (316) are uniformly distributed on the side wall of the inner sleeve (313) of the piston.

13. The coke oven coking chamber raw gas pressure regulating device according to claim 6, characterized in that the height of the side wall of the inner piston (312) is greater than the height of the side wall of the inner sleeve (313) of the piston above the protrusion (315).

14. The coke oven coking chamber raw gas pressure regulating device according to claim 6, characterized in that the piston connecting rod (32) and the piston regulating cylinder (33) are connected by a connecting piece (2-3); a fire damper plate (34) is arranged on the side surface of the piston adjusting cylinder (33).

15. The coke oven coking chamber raw gas pressure regulating device according to claim 1, characterized in that the top of the shell of the liquid level regulating device (1) is provided with an outer cover flushing nozzle (112) penetrating through the shell, and the side wall of the shell is provided with a viewing hole (113).

16. The coke oven coking chamber raw gas pressure regulating device according to claim 1, characterized in that the top of the bridge pipe (2) is provided with a low-pressure ammonia nozzle (21), a high-pressure ammonia nozzle (22) and a high-low pressure ammonia nozzle (23).

17. The coke oven carbonization chamber raw gas pressure regulating device according to claim 1, characterized in that the pipe wall of the bridge pipe (2) is further provided with an ammonia water fast injection port (25), a cleaning hole (26) and/or a pressure sampling pipe (27).

18. The coke oven carbonization chamber raw gas pressure regulating device as claimed in claim 1, characterized by further comprising a support (4), wherein the bridge pipe (2) and the regulating valve (3) are both fixed on the support (4), and the regulating valve (3) is fixed with the support (4) through a supporting device (41).

19. The coke oven coking chamber raw gas pressure regulating device according to claim 18, characterized in that the support (4) is further provided with a valve positioner (42) and a transmitter (43), and the valve positioner (42) is connected with the regulating valve (3).

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