CN221191718U - Oil foam overflow-preventing structure of finished product hot ring tank - Google Patents

Abstract

The utility model relates to the technical field of waste heat utilization, and discloses a finished product hot ring pool oil foam overflow-preventing structure, which comprises a storage rack and further comprises: the device comprises a storage rack, a water storage part arranged in the storage rack, a filter tank positioned at one side of the storage rack, a flushing component positioned at the top of the storage rack, a connecting pipe arranged at the top of the water storage part, an ammonia water pump room positioned at one side of the storage rack, a spraying room positioned at one side of the ammonia water pump room, a smoke inlet pipe arranged at one side of the spraying room, and a carbonization furnace arranged at one end of the smoke inlet pipe.

Description

Oil foam overflow-preventing structure of finished product hot ring tank

Technical Field

The utility model relates to the technical field of waste heat utilization, in particular to an oil foam overflow-preventing structure of a finished product hot ring tank.

Background

The circulating ammonia water is ammonia water which is condensed from the coke oven gas primary cooling system and then returned to the coke oven gas collecting pipe for spraying and cooling the raw gas. The waste heat generated by the circulating ammonia water is up to more than 75 ℃, and at present, no device and system can utilize the waste heat of the circulating ammonia water, so that the waste of energy sources is caused, and the operation cost of the coking furnace is increased.

The hot-ring ammonia water is used for carrying dust carried in the gas into a hot-ring ammonia water pool in the process of washing and cooling the raw gas, and is mixed with upper coal tar to form suspension oil foam, the air temperature in summer is increased, the oil foam of the hot-ring ammonia water pool expands, and overflows from the top of a channel of the hot-ring ammonia water pool, so that environmental pollution is caused; the hot ring oil foam sub-control needs to be adjusted by adjusting the liquid level of a hot ring ammonia water pool, but hot ring ammonia water does not have an outer delivery pipeline, the liquid level can only be controlled by a mode of receiving a large amount of ammonia water, the top of a cold ring pool is affected by oil receiving amount, the oil receiving rate of coal tar is reduced, the water quality of the cold ring ammonia water is emulsified, the water returning work amount is increased, and the curing operation of a middle tank of a finished product device is affected.

Disclosure of utility model

The utility model aims to provide an oil foam anti-overflow structure of a finished product hot ring tank, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the oil foam anti-overflow structure of the finished product hot ring pool comprises a storage rack and further comprises: the device comprises a storage rack, a water storage piece, a filtering tank, a flushing assembly, a connecting pipe, an ammonia water pump room, a spraying room, a smoke inlet pipe and a carbonization furnace, wherein the water storage piece is arranged in the storage rack, the filtering tank is positioned at one side of the storage rack, the flushing assembly is positioned at the top of the storage rack, the connecting pipe is arranged at the top of the water storage piece, the ammonia water pump room is positioned at one side of the storage rack, the spraying room is positioned at one side of the ammonia water pump room, the smoke inlet pipe is arranged at one side of the spraying room, and the carbonization furnace is arranged at one end of the smoke inlet pipe; the flushing assembly comprises a flushing box fixed at the top of the storage rack, a second communicating pipe communicated with the outer side of the flushing box, a connecting nut arranged on the outer side of the second communicating pipe, a third communicating pipe in threaded connection with the inner wall of the connecting nut, a rotary sprinkler head communicated with one end of the third communicating pipe, and a partition plate fixed on the inner wall of the flushing box.

Preferably, the water storage piece comprises a storage tank arranged in the storage rack, a limiting block arranged at the bottom of the storage tank and a defoaming pipe communicated with the top of the storage tank.

Preferably, the filter tank comprises a filter box positioned at one side of the storage rack and a filter plate arranged on the inner wall of the filter box.

Preferably, the filter tank further comprises a first water pump fixed at the top of the filter tank, a first communication pipe communicated with the water outlet end of the first water pump, a water inlet head communicated with the water inlet of the first water pump, and a circulating pipe communicated with the top of the filter tank.

Preferably, the connecting pipe comprises a first water inlet pipe communicated with the top of the storage tank and a water inlet valve arranged on the outer side of the first water inlet pipe.

Preferably, the ammonia water pump house comprises a water pump box positioned at one side of the storage rack, a second water pump fixed on the inner wall of the water pump box, and a first water supply pipe communicated with a water inlet of the second water pump.

Preferably, the ammonia water pump house further comprises a second water supply pipe communicated with one side of the storage rack, a third water pump communicated with one end of the second water supply pipe, and a second water inlet pipe communicated with the water outlet end of the third water pump.

Preferably, the spray room comprises a spray box communicated with one end of the second water inlet pipe, a spray plate fixed on the inner wall of the spray box, and a water leakage plate arranged on the inner wall of the spray box.

Compared with the prior art, the utility model has the following beneficial effects:

the utility model can conveniently clear oil foam of the storage tank by arranging the flushing component, can conveniently store ammonia water by arranging the water storage component, can conveniently control the storage capacity of the storage tank by arranging the connecting pipe, can conveniently transmit the ammonia water by arranging the ammonia water pump room, and can conveniently absorb raw gas of the carbonization furnace by arranging the spraying room.

Drawings

FIG. 1 is a schematic diagram of a preferred embodiment of an oil foam overflow prevention structure for a finished hot ring tank according to the present utility model;

FIG. 2 is a schematic view of a water storage structure according to the present utility model;

FIG. 3 is a schematic diagram of a filter tank according to the present utility model;

FIG. 4 is a schematic view of a flushing assembly according to the present utility model;

FIG. 5 is a schematic diagram of an ammonia pump house according to the present utility model.

In the figure: 1. a storage rack; 2. a water storage member; 21. a storage tank; 22. a limiting block; 23. a defoaming pipe; 3. a filtering tank; 31. a filter box; 32. a filter plate; 33. a first water pump; 34. a first communication pipe; 35. a water inlet head; 36. a circulation pipe; 4. a flushing assembly; 41. a flushing box; 42. a second communicating pipe; 43. a connecting nut; 44. a third communicating pipe; 45. rotating the sprinkler head; 46. a partition plate; 5. a connecting pipe; 51. a first water inlet pipe; 52. a water inlet valve; 6. an ammonia water pump house; 61. a water pump box; 62. a second water pump; 63. a first water supply pipe; 64. a second water supply pipe; 65. a third water pump; 66. a second water inlet pipe; 7. a spray room; 71. a spray box; 72. a spray plate; 73. a water leakage plate; 8. a smoke inlet pipe; 9. and (3) a carbonization furnace.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, the oil foam overflow preventing structure of the finished hot ring tank comprises a storage rack 1, and further comprises: the device comprises a water storage piece 2 arranged in a storage rack 1, a filtering tank 3 positioned at one side of the storage rack 1, a flushing component 4 positioned at the top of the storage rack 1, a connecting pipe 5 arranged at the top of the water storage piece 2, an ammonia water pump room 6 positioned at one side of the storage rack 1, a spraying room 7 positioned at one side of the ammonia water pump room 6, a smoke inlet pipe 8 arranged at one side of the spraying room 7, and a carbonization furnace 9 arranged at one end of the smoke inlet pipe 8; the flushing assembly 4 includes a flushing tank 41 fixed to the top of the storage rack 1, a second communication pipe 42 connected to the outside of the flushing tank 41, a connection nut 43 provided to the outside of the second communication pipe 42, a third communication pipe 44 screw-coupled to the inner wall of the connection nut 43, a rotary sprinkler 45 connected to one end of the third communication pipe 44, and a partition 46 fixed to the inner wall of the flushing tank 41.

It should be noted that: through setting up storage frame 1, can conveniently fix retaining piece 2, through setting up filtering ponds 3, can conveniently filter the foam water, through setting up flushing assembly 4, can conveniently dispel the oil foam son, through setting up connecting pipe 5, can conveniently control the quantity that aqueous ammonia was stored, through setting up ammonia pump house 6, can conveniently transmit aqueous ammonia, through setting up spray room 7, can conveniently subdue carbonization stove 9 through advancing the exhaust raw coke oven of tobacco pipe 8, through setting up flushing box 41, can conveniently fix second communicating pipe 42, through setting up connecting nut 43, can conveniently connect third communicating pipe 44, through setting up third communicating pipe 44, can conveniently supply water to rotatory sprinkler 45, through setting up rotatory sprinkler 45, can conveniently dispel the oil foam son.

Referring to fig. 3, the water storage member 2 includes a storage tank 21 provided inside the storage rack 1, a stopper 22 provided at the bottom of the storage tank 21, and a defoaming pipe 23 communicated with the top of the storage tank 21; the filter tank 3 further comprises a first water pump 33 fixed at the top of the filter tank 31, a first communication pipe 34 communicated with the water outlet end of the first water pump 33, a water inlet head 35 communicated with the water inlet of the first water pump 33, and a circulating pipe 36 communicated with the top of the filter tank 31; by providing the storage tank 21, it is possible to conveniently store aqueous ammonia, by providing the defoaming pipe 23, it is possible to conveniently discharge the oil foam of the storage tank 21, and by providing the first water pump 33 and the circulation pipe 36, it is possible to conveniently supply water to the flushing assembly 4 in the flushing tank 41.

Referring to fig. 2, the connection pipe 5 includes a first water inlet pipe 51 connected to the top of the storage tank 21, and a water inlet valve 52 provided outside the first water inlet pipe 51; by providing the first water inlet pipe 51, the ammonia water can be conveniently discharged into the storage tank 21, and by providing the water inlet valve 52, the amount of stored ammonia water can be conveniently controlled.

Referring to fig. 5, the ammonia pump house 6 includes a water pump box 61 at one side of the storage rack 1, a second water pump 62 fixed to an inner wall of the water pump box 61, and a first water supply pipe 63 connected to a water inlet of the second water pump 62; the ammonia water pump house 6 further comprises a second water supply pipe 64 communicated with one side of the storage rack 1, a third water pump 65 communicated with one end of the second water supply pipe 64, and a second water inlet pipe 66 communicated with the water outlet end of the third water pump 65; through setting up the water pump case 61, can conveniently fix second water pump 62, through setting up first delivery pipe 63, can conveniently communicate storage tank 21, through setting up second delivery pipe 64, can conveniently supply water to spray room 7, through setting up third water pump 65 and second inlet tube 66, can conveniently take out the aqueous ammonia that sprays room 7.

Referring to fig. 5, the spray booth 7 includes a spray box 71 connected to one end of the second water inlet pipe 66, a spray plate 72 fixed to an inner wall of the spray box 71, and a water leakage plate 73 provided to an inner wall of the spray box 71; through setting up spray box 71, can conveniently fix spray plate 72, through setting up spray plate 72, can conveniently eliminate raw coke oven gas, through setting up water leakage plate 73, can conveniently collect aqueous ammonia.

In use, the raw gas is discharged into the spray room 7 through the smoke inlet pipe 8 through the carbonization furnace 9, ammonia water is conveyed to the spray plate 72 through the second water inlet pipe 66 by starting the second water pump 62, raw gas can be sprayed through the spray plate 72, sprayed ammonia water falls below through the water leakage plate 73, ammonia water at the bottom of the spray room 7 is extracted through the second water inlet pipe 64 and the third water pump 65, then discharged into the storage tank 21 through the first water inlet pipe 51, floating oil foam is formed when the ammonia water is discharged into the storage tank 21, foam removing pipe 23 discharges when the oil foam is excessive, foam removing water in the filter box 31 is conveyed to the second communication pipe 42 through the first communication pipe 34, foam removing water in the filter box 33 is conveyed to the rotary spray head 45 through the third communication pipe 44, the oil foam removing pipe 23 can be removed through rotary spray by the rotary spray head 45, the removed oil foam is discharged into the filter box 31 through the filter box 36, and then the filtered oil foam removing pipe can be continued to remove the foam of the filtered filter plate.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a hot ring pond oil foam anti-overflow structure of finished product, includes storage frame (1), its characterized in that: further comprises:

the device comprises a water storage part (2) arranged in a storage rack (1), a filter tank (3) arranged on one side of the storage rack (1), a flushing component (4) arranged at the top of the storage rack (1), a connecting pipe (5) arranged at the top of the water storage part (2), an ammonia water pump room (6) arranged on one side of the storage rack (1), a spray room (7) arranged on one side of the ammonia water pump room (6), a smoke inlet pipe (8) arranged on one side of the spray room (7) and a carbonization furnace (9) arranged at one end of the smoke inlet pipe (8);

The flushing assembly (4) comprises a flushing box (41) fixed at the top of the storage rack (1), a second communicating pipe (42) communicated with the outer side of the flushing box (41), a connecting nut (43) arranged on the outer side of the second communicating pipe (42), a third communicating pipe (44) connected with the inner wall of the connecting nut (43) in a threaded mode, a rotary sprinkler head (45) communicated with one end of the third communicating pipe (44), and a partition plate (46) fixed on the inner wall of the flushing box (41).

2. The finished hot ring pond oil foam overflow prevention structure according to claim 1, wherein: the water storage piece (2) comprises a storage tank (21) arranged in the storage rack (1), a limiting block (22) arranged at the bottom of the storage tank (21), and a defoaming pipe (23) communicated with the top of the storage tank (21).

3. The finished hot ring pond oil foam overflow prevention structure according to claim 1, wherein: the filter tank (3) comprises a filter box (31) positioned at one side of the storage rack (1), and a filter plate (32) arranged on the inner wall of the filter box (31).

4. A finished hot ring pool oil foam overflow prevention structure according to claim 3, characterized in that: the filter tank (3) further comprises a first water pump (33) fixed at the top of the filter tank (31), a first communication pipe (34) communicated with the water outlet end of the first water pump (33), a water inlet head (35) communicated with the water inlet of the first water pump (33), and a circulating pipe (36) communicated with the top of the filter tank (31).

5. The finished hot ring pond oil foam overflow prevention structure according to claim 2, wherein: the connecting pipe (5) comprises a first water inlet pipe (51) communicated with the top of the storage tank (21), and a water inlet valve (52) arranged outside the first water inlet pipe (51).

6. The finished hot ring pond oil foam overflow prevention structure according to claim 1, wherein: the ammonia water pump house (6) comprises a water pump box (61) positioned at one side of the storage frame (1), a second water pump (62) fixed on the inner wall of the water pump box (61), and a first water supply pipe (63) communicated with the water inlet of the second water pump (62).

7. The finished hot ring pond oil foam overflow preventing structure according to claim 6, wherein: the ammonia water pump house (6) further comprises a second water supply pipe (64) communicated with one side of the storage rack (1), a third water pump (65) communicated with one end of the second water supply pipe (64), and a second water inlet pipe (66) communicated with the water outlet end of the third water pump (65).

8. The finished hot ring pond oil foam overflow preventing structure according to claim 7, wherein: the spray room (7) comprises a spray box (71) communicated with one end of the second water inlet pipe (66), a spray plate (72) fixed on the inner wall of the spray box (71), and a water leakage plate (73) arranged on the inner wall of the spray box (71).