CN113048798A

CN113048798A - Multi-point-position waste heat recycling device of coking plant

Info

Publication number: CN113048798A
Application number: CN202110282208.7A
Authority: CN
Inventors: 俞得河; 李子强; 史杰伟
Original assignee: Shanxi Guangda Coking Gas Source Co ltd
Current assignee: Shanxi Guangda Coking Gas Source Co ltd
Priority date: 2021-03-16
Filing date: 2021-03-16
Publication date: 2021-06-29

Abstract

The multi-point waste heat recycling device for the coking plant comprises a recycling box, wherein the recycling box is communicated with a purifying head, a filter screen is detachably arranged on the purifying head, the bottom end of the filter screen is clamped and connected with a clamping groove of the recycling box through a clamping block, a screw shaft is rotatably arranged in the purifying head, a threaded area is arranged on the screw shaft, a thread cleaning block is connected with an internal thread of the threaded area, the thread cleaning block is connected with a hairbrush, and the hairbrush is attached to the filter screen; the wire shaft and the power shaft. According to the invention, the smoke dust is purified through the filter screen, the purified waste heat drives the driving wheel to rotate by starting the power motor, the power rotating shaft rotates, the driving wheel is connected with the driven wheel through the belt, the driven wheel rotates, the stable rotating shaft rotation is realized, then the two disturbing shafts rotate, the waste heat is stirred, and the homogenization efficiency is improved.

Description

Multi-point-position waste heat recycling device of coking plant

Technical Field

The invention relates to the technical field of infusion pumps, in particular to a multi-point waste heat recycling device for a coking plant.

Background

Coal coking is also called high-temperature dry distillation of coal, coal is used as raw material, and is heated to about 950 ℃ in a coke oven under the condition of isolating air, and coke is produced through high-temperature dry distillation, and meanwhile, coal gas and coal tar are obtained, and other chemical products are recovered. The temperature of raw gas led out from a carbonization chamber reaches 650-700 ℃, the raw gas is firstly cooled to about 83 ℃ through an ascending pipe, a bridge pipe and a gas collecting pipe, then is cooled to 21 ℃ through a primary cooler, tar is removed through electric catching, and a desulfurization and crude benzene section is carried out after pressurization through a blower to remove hydrogen sulfide and benzene in the gas. At present, the cooling process in a bridge pipe and a gas collecting pipe mainly adopts circulating ammonia water spraying, a primary cooler is cooled by circulating water and cooling water in a segmented mode, the heat of coal gas is reduced from 700 ℃ to 21 ℃ and accounts for 36% of the heat of a coke oven, the sprayed circulating ammonia water absorbs most of heat, the temperature is increased to about 80 ℃, the coal gas enters a mechanical clarifying tank to be cooled and separated from tar, the temperature is reduced to 75-78 ℃, and then the circulating ammonia water is sprayed by a circulating ammonia water pump in a circulating mode. And the residual ammonia water needs to be treated by ammonia distillation to recover substances such as ammonia gas and the like. On the one hand, a large amount of low-temperature waste heat exists in the process, is mainly emitted by the environment and is not utilized.

The waste heat that current waste heat recovery utilized device utilized contains in addition the material such as large granule impurity, does not clear up, influences waste heat recovery efficiency easily, and the waste heat is inhomogeneous simultaneously, influences the utilization efficiency easily.

Disclosure of Invention

The invention aims to provide a multi-point waste heat recycling device for a coke-oven plant, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a multi-point waste heat recycling device of a coking plant comprises a recycling box, wherein the recycling box is communicated with a purifying head, a filter screen is detachably arranged on the purifying head, the bottom end of the filter screen is clamped with a clamping groove of the recycling box through a clamping block, a screw shaft is rotationally arranged in the purifying head, a threaded area is arranged on the screw shaft, a thread cleaning block is connected to the thread area through internal threads, the thread cleaning block is connected with a hairbrush, and the hairbrush is attached to the filter screen; the wire shaft is connected with the power shaft, the power shaft is connected with the driven bevel gear, the driven bevel gear is meshed with the driving bevel gear, the driving bevel gear is connected with the driving handle shaft, and a discharge hole is formed in the bottom wall of the recovery box below the filter screen; the top end of the filter screen is provided with a limiting groove, and the limiting groove is matched with a limiter on the outer top wall of the purification head;

the outer side wall of the recovery box is provided with a power motor, an output shaft of the power motor is connected with a power rotating shaft, the power rotating shaft is connected with a driving wheel, the driving wheel is connected with a driven wheel through a belt, the driven wheel is connected with a stable rotating shaft, the stable rotating shaft is connected with a disturbance shaft, and the two disturbance shafts are rotatably arranged in the recovery box; an oscillator is further arranged in the recycling bin, an anti-shaking mechanism is further arranged on the outer side wall of the recycling bin, and the anti-shaking mechanism is connected with the stable rotating shaft;

the heat recovery box is characterized in that a heat outlet is further formed in the top of the recovery box, a heat outlet valve is arranged at the position of the heat outlet, the heat outlet valve comprises a heat outlet sleeve box, the heat outlet sleeve box is communicated with the heat outlet, a heat outlet sliding block is arranged in the heat outlet sleeve box in a sliding mode, a heat outlet sliding rod is arranged on the upper portion of the heat outlet sliding block, a valve pulling block is arranged at the top end of the heat outlet sliding rod, a guide wheel is arranged at the side end of the heat outlet sleeve box, a heat outlet spring is sleeved on the heat outlet sliding rod, one end of the heat outlet spring is connected with the inner top wall of the heat outlet sleeve box, the other end of the heat outlet spring is connected with the heat outlet sliding block, a single valve port is further formed in the side.

Preferably, the stopper includes spacing post, and the pull formula is equipped with spacing pull rod in the spacing post, is equipped with spacing fixture block on the spacing pull rod, and spacing fixture block and spacing groove joint set up, spacing pull rod one end is equipped with the handle, and the cover is equipped with spacing spring on the spacing pull rod, and spacing spring one end is connected with the handle, and the other end is connected with spacing post.

Preferably, the oscillator includes the oscillation box, and it is equipped with the oscillation slider to slide in the oscillation box, and the oscillation slider is connected with the oscillation hinge piece, and the oscillation hinge piece is connected the setting with the oscillation down tube is articulated, be equipped with the oscillation in the oscillation box and erect the post, the cover is equipped with the oscillation cover on the oscillation is erected the post, and the oscillation cover is connected the setting with the oscillation down tube is articulated, the oscillation slider is connected with the oscillation spreader, and the oscillation spreader passes the oscillation box and is connected with the oscillation board, and the oscillation board passes through the first spring of oscillation and is connected, two through oscillation second spring coupling between the oscillation down tube.

Preferably, the anti-shaking mechanism comprises an anti-shaking box, the anti-shaking box is arranged on the outer side wall of the recycling box, anti-shaking rotating wheels are arranged in the anti-shaking box, and the two anti-shaking rotating wheels are connected with the stable rotating shaft; be equipped with between two anti-sway runners and prevent shaking steady post, prevent shaking steady post go up the cover and be equipped with and prevent shaking the cover, prevent shaking the cover and prevent shaking between the runner and articulate through preventing shaking the down tube and connect the setting, prevent shaking steady post go up the cover and be equipped with and prevent shaking the spring, prevent shaking spring one end and prevent shaking the incasement lateral wall and be connected, the other end with prevent shaking the cover and be connected, prevent shaking the incasement lateral wall and be equipped with the linkage, the linkage with prevent shaking the cover cooperation setting.

Preferably, the linkage piece includes linkage down tube and linkage cross slot, and the linkage cross slot setting is in preventing shaking the incasement lateral wall, the slip is equipped with the linkage slider in the linkage cross slot, and the linkage slider is connected with the articulated setting of one end of linkage down tube, and the other end of linkage down tube is connected with the articulated setting of preventing shaking the runner.

Preferably, the single control assembly comprises a single control box, a single control slider is slidably arranged in the single control box, a single control rack is arranged on the lower portion of the single control slider, the single control rack is connected with the single control box through a single control spring, the single control rack is meshed with the single control gear, the single control slider is connected with a single control rope, a moving port is formed in the side wall of the single control box, a power part and a buckling part are arranged on the side wall of the single control box, the power part is used for driving the buckling part and the single control slider, and the buckling part is used for clamping the single control gear.

Preferably, the power part comprises a power frame, a power screw rod is rotatably arranged on the power frame, a power screw block is connected to the power screw rod in a threaded manner, the power screw block penetrates through a moving port through a power slide rod to be connected with a single-control slide block, a power vertical shaft is arranged at the lower part of the power screw rod, a positioning groove is further formed in the side wall of the power frame, a positioning rod is slidably arranged in the positioning groove, and the positioning rod is connected with the power screw block;

preferably, the buckle piece comprises a buckle transverse shaft, the buckle transverse shaft is connected with a first bevel gear, the first bevel gear is meshed with a second bevel gear, the second bevel gear is connected with a buckle vertical shaft, the buckle vertical shaft is connected with a power screw, the buckle transverse shaft is connected with a buckle screw, the buckle screw is in threaded connection with a buckle screw on a buckle block, the buckle block is connected with buckle teeth, and the buckle teeth are in matched clamping connection with the single control gear.

Preferably, the buckle block is connected with a vertical sleeve rod, the vertical sleeve rod is sleeved on a horizontal sleeve column, and the horizontal sleeve column is arranged on the inner side wall of the single control box.

Preferably, one end of the transverse casing column is provided with a stop block.

Compared with the prior art, the invention has the beneficial effects that

(1) The smoke dust is purified through the filter screen, purified waste heat drives the driving wheel to rotate by starting the power motor, the power rotating shaft rotates to drive the driving wheel to rotate, the driving wheel is connected with the driven wheel through the belt, the driven wheel rotates to further realize the rotation of the stable rotating shaft, then the two disturbance shafts rotate to further stir the waste heat, the homogenization efficiency is improved, meanwhile, the waste heat moves in the recovery box to drive the oscillating plate to move, then the oscillating cross column moves, the angle change of the oscillating diagonal rod is driven by the movement of the oscillating hinge block, then the movement of the oscillating sleeve is realized, the stretching of the first spring and the second spring is realized, the reciprocating movement of the oscillating plate is realized, the waste heat is further disturbed, the uniformity of the waste heat is improved, the non-uniform heat utilization is avoided, and the utilization effect is influenced.

(2) Stabilize the pivot and rotate, it prevents shaking the runner rotation to drive two, prevent shaking the angular variation of down tube simultaneously, the removal of cover is prevented shaking in the drive, then realize preventing shaking the compression and the reseing of spring, the angular variation through the linkage down tube simultaneously, then realize the removal of linkage slider, and then improve and stabilize pivot rotational stability, then improve disturbance axle rotational stability, thereby improve the mixing degree of waste heat, avoid device structure vibrations in addition, influence the life-span of device, the use of cooperation oscillator, not only improve the device structure life-span, improve the device simultaneously to the waste heat mixing degree.

(3) The rotation of the buckle transverse shaft is driven through the rotation of the buckle transverse shaft, the rotation of the second bevel gear is realized, the buckle vertical shaft is driven to rotate, meanwhile, the power vertical shaft rotates, the power screw rod rotates, the movement of the power screw block is realized, the power slide rod penetrates through the moving port to drive the single-control slide block to move, the pulling of a single-control rope is realized, the movement of the heat discharge slide rod is driven, the movement of the heat discharge slide block is realized, the opening of a single valve port and the heat discharge are realized through the movement of the heat discharge slide block, the one-way heat outflow is realized, the one-way heat inflow is avoided, and the one-way heat flowing effect is improved; in addition, the rotation of the buckle screw drives the buckle screw to move, so that the matching and the clamping of the buckle teeth and the single control gear are realized, the stability of the hot sliding block is further improved, and the heat discharge effect is improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged schematic view of FIG. 1 at A;

FIG. 3 is a schematic diagram of an oscillator according to the present invention;

FIG. 4 is a schematic structural diagram of the anti-sloshing mechanism of the present invention;

FIG. 5 is a schematic view of a linkage of the present invention;

FIG. 6 is a schematic structural diagram of a single control assembly according to the present invention;

fig. 7 is a schematic structural view of the fastener of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, in the embodiment of the present invention, a multi-point waste heat recycling device for a coke-oven plant includes a recycling tank 1, the recycling tank 1 is communicated with a purifying head 2, a filter screen 3 is detachably disposed on the purifying head 2, a bottom end of the filter screen 3 is clamped to a clamping groove 5 of the recycling tank 1 through a clamping block 4, a screw shaft 6 is rotatably disposed in the purifying head 2, a threaded area 7 is disposed on the screw shaft 6, a thread cleaning block 8 is connected to an internal thread of the threaded area 7, the thread cleaning block 8 is connected to a brush 9, and the brush 9 is attached to the filter screen 3; the wire shaft 6 is connected with a power shaft 10, the power shaft 10 is connected with a driven bevel gear 11, the driven bevel gear 11 is meshed with a driving bevel gear 12, the driving bevel gear 12 is connected with a driving handle shaft 13, and a discharge hole 14 is formed in the bottom wall of the recovery box 1 below the filter screen 3; the top end of the filter screen 3 is provided with a limiting groove 15, and the limiting groove 15 is matched with a limiter 16 on the outer top wall of the purification head 2;

the outer side wall of the recovery box 1 is provided with a power motor 17, the output shaft of the power motor 17 is connected with a power rotating shaft 18, the power rotating shaft 18 is connected with a driving wheel 19, the driving wheel 19 is connected with a driven wheel 21 through a belt 20, the driven wheel 21 is connected with a stable rotating shaft 22, the stable rotating shaft 22 is connected with a disturbance shaft 23, and the two disturbance shafts 23 are rotatably arranged in the recovery box 1; an oscillator 24 is further arranged in the recycling bin 1, an anti-shaking mechanism 25 is further arranged on the outer side wall of the recycling bin 1, and the anti-shaking mechanism 25 is connected with the stable rotating shaft 22;

rotating the driving handle shaft 13, rotating the driving bevel gear 12, rotating the driven bevel gear 11, then driving the power shaft 10 to rotate, rotating the screw shaft 6, then realizing the movement of the thread cleaning block 8, further realizing the movement of the brush 9, further realizing the cleaning of the filter screen 3 by the brush 9, and discharging the cleaned waste through the discharge hole 14;

the bottom end of the filter screen 3 is clamped with the clamping groove 5 of the recovery box 1 through the clamping block 4, so that the filter screen is convenient to mount, and the mounting stability of the filter screen 3 is further improved through clamping the limiting clamping block 163 with the limiting groove 15;

the top of the recycling box 1 is further provided with a heat outlet 26, the heat outlet 26 is provided with a heat outlet valve 27, the heat outlet valve 27 comprises a heat outlet sleeve box 271, the heat outlet sleeve box 271 is communicated with the heat outlet 26, a heat outlet slider 272 is slidably arranged in the heat outlet sleeve box 271, a heat outlet slider 273 is arranged at the upper part of the heat outlet slider 272, the top end of the heat outlet slider 273 is provided with a valve pulling block 274, the side end of the heat outlet sleeve box 271 is provided with a guide wheel 275, a heat outlet spring 276 is sleeved on the heat outlet slider 273, one end of the heat outlet spring 276 is connected with the inner top wall of the heat outlet sleeve box 271, the other end of the heat outlet spring is connected with the heat outlet slider 272, the side wall of the heat outlet sleeve box 271 is further provided with a single valve port 277, the outer side wall of the recycling box 1 is provided with a single control assembly 28, the single.

Stopper 16 of this embodiment includes spacing post 161, and the pull formula is equipped with spacing pull rod 162 in the spacing post 161, is equipped with spacing fixture block 163 on the spacing pull rod 162, and spacing fixture block 163 sets up with spacing groove 15 joint, spacing pull rod 162 one end is equipped with handle 164, and the cover is equipped with spacing spring 165 on the spacing pull rod 162, and spacing spring 165 one end is connected with handle 164, and the other end is connected with spacing post 161.

The oscillator 24 of this embodiment includes the oscillation box 241, and the oscillation slide 242 that slides in the oscillation box 241 is equipped with, and the oscillation slide 242 is connected with the oscillation hinge 243, and the oscillation hinge 243 is articulated with the setting of oscillating diagonal 244, be equipped with the oscillation upstand 245 in the oscillation box 241, the cover is equipped with the oscillation cover 246 on the oscillation upstand 245, and the oscillation cover 246 is articulated with the setting of oscillating diagonal 244, the oscillation slide 242 is connected with the oscillation horizontal column 247, and the oscillation horizontal column 247 passes the oscillation box 241 and is connected with the oscillation board 248, and the oscillation board 248 passes through the first spring 249 of oscillation and is connected with the collection box 1 inside wall, two connect through the second spring 2410 between the oscillation diagonal 244.

Purify the smoke and dust through filter screen 3, the waste heat of purification is through starting driving motor 17, power pivot 18 rotates, drive action wheel 19 rotates, action wheel 19 passes through belt 20 and is connected with follow driving wheel 21, follow driving wheel 21 and rotate, and then realize stabilizing pivot 22 and rotate, then two disturbance axle 23 rotate, and then stir the waste heat, improve homogenization efficiency, the waste heat removes in collection box 1 simultaneously, drive oscillating plate 248 and remove, then oscillating cross post 247 removes, through the removal of oscillation hinge block 243, drive the angular variation of oscillating diagonal 244, then realize the removal of vibration cover 246, thereby realize first spring 249, second spring 2410 is flexible, then realize oscillating plate 248's reciprocating motion, to further disturbance of waste heat, thereby improve the homogeneity of waste heat, avoid the heat of utilizing inhomogeneous, influence the utilization effect.

The anti-shaking mechanism 25 of the present embodiment includes an anti-shaking box 251, the anti-shaking box 251 is disposed on the outer sidewall of the recycling bin 1, an anti-shaking runner 252 is disposed in the anti-shaking box 251, and the two anti-shaking runners 252 are connected to the stabilizing shaft 22; be equipped with between two anti-shake runner 252 and prevent shaking steady post 253, prevent shaking and overlap on the steady post 253 and be equipped with and prevent shaking cover 254, prevent shaking cover 254 and prevent shaking and articulate through preventing shaking down the diagonal 255 and connect the setting between the runner 252, prevent shaking and overlap on the steady post 253 and be equipped with and prevent shaking spring 256, prevent shaking spring 256 one end and prevent shaking case 251 inside wall and be connected, the other end with prevent shaking cover 254 and be connected, prevent shaking case 251 inside wall and be equipped with linkage 257, linkage 257 with prevent shaking cover 254 cooperation setting.

The stable rotating shaft 22 rotates to drive the two anti-shaking rotating wheels 252 to rotate, and meanwhile, the anti-shaking inclined rod 255 is changed in angle to drive the anti-shaking sleeve 254 to move, so that the anti-shaking spring 256 is compressed and reset, and meanwhile, the linkage slide block 2573 is moved through the change in angle of the linkage inclined rod 2571, so that the rotation stability of the stable rotating shaft 22 is improved, the rotation stability of the disturbance shaft 23 is improved, the uniformity of waste heat is improved, in addition, the structural vibration of the device is avoided, the service life of the device is influenced, and the structural service life of the device is prolonged and the uniformity of the device to the waste heat is improved by matching with the use of the oscillator 24;

the linkage member 257 of this embodiment includes a linkage diagonal bar 2571 and a linkage transverse groove 2572, the linkage transverse groove 2572 is disposed on the inner side wall of the anti-shaking box 251, a linkage slider 2573 is slidably disposed in the linkage transverse groove 2572, the linkage slider 2573 is hinged to one end of the linkage diagonal bar 2571, and the other end of the linkage diagonal bar 2571 is hinged to the anti-shaking rotating wheel 252.

The single control assembly 28 of the present embodiment includes a single control box 281, a single control slider 282 is slidably disposed in the single control box 281, a single control rack 283 is disposed at a lower portion of the single control slider 282, the single control rack 283 is connected with the single control box 281 through a single control spring 284, the single control rack 283 is engaged with a single control gear 285, the single control slider 282 is connected with the single control rope 29, a moving opening 288 is disposed on a side wall of the single control box 281, a power member 286 and a locking member 287 are disposed on a side wall of the single control box 281, the power member 286 is used for driving the locking member 287 and the single control slider 282, and the locking member 287 is used for locking the single control gear 285.

The power member 286 of this embodiment includes a power frame 2861, a power screw 2862 is rotatably provided on the power frame 2861, a power screw 2863 is threadedly connected to the power screw 2862, the power screw 2863 passes through a moving port 288 through a power slide bar 2864 and is connected to a single control slider 282, a power vertical shaft 2865 is provided at the lower portion of the power screw 2862, a positioning slot 2866 is further provided on the side wall of the power frame 2861, a positioning rod 2867 is slidably provided in the positioning slot 2866, and the positioning rod 2867 is connected to the power screw 2863;

the fastener 287 of this embodiment includes a fastening cross shaft 2871, the fastening cross shaft 2871 is connected with a first bevel gear 2872, the first bevel gear 2872 is engaged with a second bevel gear 2873, the second bevel gear 2873 is connected with a fastening vertical shaft 2874, the fastening vertical shaft 2874 is connected with a power screw 2862, the fastening cross shaft 2871 is connected with a fastening screw 2875, the fastening screw 2875 is in threaded connection with a fastening screw on a fastening block 2876, the fastening block 2876 is connected with fastening teeth 2877, and the fastening teeth 2877 are in matched clamping connection with the single control gear 285.

The buckle piece 2876 of this embodiment is connected with vertical loop bar 2878, and vertical loop bar 2878 cover is established on horizontal loop post 2879, and horizontal loop post 2879 sets up the inside wall at single control box 281.

One end of the transverse casing column 2879 of the embodiment is provided with a stop block 28710.

The rotation of the buckle transverse shaft 2871 drives the rotation of the buckle transverse shaft 2871, so that the rotation of the second bevel gear 2873 is realized, the rotation of the buckle vertical shaft 2874 is further driven, meanwhile, the rotation of the power vertical shaft 2865 is further driven, further, the rotation of the power screw 2862 is further driven, further, the movement of the power screw 2863 is realized, the power slide bar 2864 penetrates through the moving port 288 to drive the single-control slider 282 to move, further, the pulling of the single-control rope 29 is realized, meanwhile, the movement of the heat outlet slide bar 273 is driven, further, the movement of the heat outlet slider 272 is realized, through the movement of the heat outlet slider 272, the opening of the single-valve port 277 is realized, heat is discharged, further, the unidirectional outflow of heat is realized, the entry; in addition, the rotation of the fastening screw 2875 drives the fastening screw 2875 to move, so that the fastening teeth 2877 are clamped with the single control gear 285 in a matched mode, the stability of the hot sliding block 272 is further improved, and the heat discharging effect is improved.

The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The multi-point position waste heat recycling device for the coking plant comprises a recycling box (1) and is characterized in that the recycling box (1) is communicated with a purifying head (2), a filter screen (3) is detachably arranged on the purifying head (2), the bottom end of the filter screen (3) is connected with a clamping groove (5) of the recycling box (1) through a clamping block (4), a screw shaft (6) is arranged in the purifying head (2) in a rotating mode, a threaded area (7) is arranged on the screw shaft (6), a threaded cleaning block (8) is connected with an internal thread of the threaded area (7), the threaded cleaning block (8) is connected with a hairbrush (9), and the hairbrush (9) is attached to the filter screen (3); the wire shaft (6) is connected with the power shaft (10), the power shaft (10) is connected with the driven bevel gear (11), the driven bevel gear (11) is meshed with the driving bevel gear (12), the driving bevel gear (12) is connected with the driving handle shaft (13), and a discharge hole (14) is formed in the inner bottom wall of the recovery box (1) below the filter screen (3); the top end of the filter screen (3) is provided with a limiting groove (15), and the limiting groove (15) is matched with a limiter (16) on the outer top wall of the purification head (2);

the outer side wall of the recovery box (1) is provided with a power motor (17), the output shaft of the power motor (17) is connected with a power rotating shaft (18), the power rotating shaft (18) is connected with a driving wheel (19), the driving wheel (19) is connected with a driven wheel (21) through a belt (20), the driven wheel (21) is connected with a stable rotating shaft (22), the stable rotating shaft (22) is connected with disturbance shafts (23), and the two disturbance shafts (23) are rotatably arranged in the recovery box (1); an oscillator (24) is further arranged in the recycling box (1), an anti-shaking mechanism (25) is further arranged on the outer side wall of the recycling box (1), and the anti-shaking mechanism (25) is connected with the stable rotating shaft (22);

the top of the recycling box (1) is also provided with a heat outlet (26), the heat outlet (26) is provided with a heat outlet valve (27), the heat outlet valve (27) comprises a heat outlet sleeve box (271), the heat outlet sleeve box (271) is communicated with the heat outlet (26), a heat outlet sliding block (272) is arranged in the heat outlet sleeve box (271) in a sliding manner, a heat outlet sliding rod (273) is arranged at the upper part of the heat outlet sliding block (272), a valve pulling block (274) is arranged at the top end of the heat outlet sliding rod (273), a guide wheel (275) is arranged at the side end of the heat outlet sleeve box (271), a heat outlet spring (276) is sleeved on the heat outlet sliding rod (273), one end of the heat outlet spring (276) is connected with the inner top wall of the heat outlet sleeve box (271), the other end of the heat outlet sliding block (272) is connected with the single valve port (277), a single control assembly (28) is arranged on the outer side wall of the recycling box (1), and the single control assembly, the single control rope (29) is connected with the heat outlet sliding rod (273) through a guide wheel (275).

2. The multi-point waste heat recycling device of the coke-oven plant as claimed in claim 1, wherein the stopper (16) comprises a limiting post (161), a limiting pull rod (162) is arranged in the limiting post (161) in a drawing manner, a limiting fixture block (163) is arranged on the limiting pull rod (162), the limiting fixture block (163) is clamped with the limiting groove (15), a handle (164) is arranged at one end of the limiting pull rod (162), a limiting spring (165) is sleeved on the limiting pull rod (162), one end of the limiting spring (165) is connected with the handle (164), and the other end of the limiting spring is connected with the limiting post (161).

3. The multi-point waste heat recovery device of a coke-oven plant as claimed in claim 1, the oscillator (24) comprises an oscillating box (241), an oscillating slide block (242) is arranged in the oscillating box (241) in a sliding manner, the oscillating slide block (242) is connected with an oscillating hinge block (243), the oscillating hinge block (243) is hinged and connected with an oscillating diagonal rod (244), an oscillating upright post (245) is arranged in the oscillating box (241), an oscillating sleeve (246) is sleeved on the oscillating upright post (245), the oscillating sleeve (246) is hinged with the oscillating diagonal rod (244), the oscillating slide block (242) is connected with an oscillating transverse column (247), the oscillating transverse column (247) penetrates through an oscillating box (241) to be connected with an oscillating plate (248), the oscillating plate (248) is connected with the inner side wall of the recycling box (1) through an oscillating first spring (249), and the two oscillating inclined rods (244) are connected through an oscillating second spring (2410).

4. The multi-point waste heat recycling device of the coke-oven plant as claimed in claim 1, wherein the anti-sloshing mechanism (25) comprises an anti-sloshing box (251), the anti-sloshing box (251) is arranged on the outer side wall of the recycling box (1), an anti-sloshing rotating wheel (252) is arranged in the anti-sloshing box (251), and the two anti-sloshing rotating wheels (252) are connected with the stable rotating shaft (22); be equipped with between two anti-shake runner (252) and prevent shaking steady post (253), prevent shaking steady post (253) and go up the cover and be equipped with and prevent shaking cover (254), prevent shaking cover (254) and prevent shaking and articulate through preventing shaking down the down tube (255) between runner (252) and set up, prevent shaking and be equipped with on steady post (253) and prevent shaking spring (256), prevent shaking spring (256) one end and prevent shaking case (251) inside wall and be connected, the other end with prevent shaking cover (254) and be connected, prevent shaking case (251) inside wall and be equipped with linkage (257), linkage (257) with prevent shaking cover (254) cooperation setting.

5. The multi-point waste heat recycling device of the coke-oven plant as claimed in claim 4, wherein the linkage member (257) comprises a linkage diagonal bar (2571) and a linkage transverse groove (2572), the linkage transverse groove (2572) is disposed on the inner side wall of the anti-sloshing box (251), a linkage slider (2573) is slidably disposed in the linkage transverse groove (2572), the linkage slider (2573) is hinged to one end of the linkage diagonal bar (2571), and the other end of the linkage diagonal bar (2571) is hinged to the anti-sloshing rotary wheel (252).

6. The multi-point waste heat recycling device of the coke-oven plant as claimed in claim 1, wherein the single control assembly (28) comprises a single control box (281), a single control slider (282) is slidably arranged in the single control box (281), a single control rack (283) is arranged at the lower part of the single control slider (282), the single control rack (283) is connected with the single control box (281) through a single control spring (284), the single control rack (283) is meshed with a single control gear (285), the single control slider (282) is connected with a single control rope (29), a moving port (288) is arranged on the side wall of the single control box (281), a power member (286) and a fastener (287) are arranged on the side wall of the single control box (281), the power member (286) is used for driving the fastener (287) and the single control slider (282), and the fastener (287) is used for fastening the single control gear (285).

7. The multi-point waste heat recycling device of the coke-oven plant as claimed in claim 6, wherein the power member (286) comprises a power frame (2861), a power screw (2862) is rotatably provided on the power frame (2861), a power screw block (2863) is connected to the power screw (2862) in a threaded manner, the power screw block (2863) passes through a moving port (288) through a power slide rod (2864) and is connected with a single control slider (282), a power vertical shaft (2865) is provided at the lower part of the power screw (2862), a positioning slot (2866) is further provided on the side wall of the power frame (2861), a positioning rod (2867) is slidably provided in the positioning slot (2866), and the positioning rod (2867) is connected with the power screw block (2863).

8. The multi-point waste heat recycling device of the coke-oven plant as claimed in claim 6, wherein the latch member (287) comprises a latch transverse shaft (2871), the latch transverse shaft (2871) is connected with a first bevel gear (2872), the first bevel gear (2872) is engaged with a second bevel gear (2873), the second bevel gear (2873) is connected with a latch vertical shaft (2874), the latch vertical shaft (2874) is connected with a power screw (2862), the latch transverse shaft (2871) is connected with a latch screw (2875), the latch screw (2875) is in threaded connection with a latch screw on a latch block (2876), the latch block (2876) is connected with a latch tooth (2877), and the latch tooth (2877) is in matched clamping connection with the single control gear (285).

9. The multi-point waste heat recycling device of the coke-oven plant as claimed in claim 8, characterized in that the snap-in block (2876) is connected with a vertical sleeve rod (2878), the vertical sleeve rod (2878) is sleeved on a horizontal sleeve column (2879), and the horizontal sleeve column (2879) is arranged on the inner side wall of the single control box (281).

10. The multi-point waste heat recovery device of the coke-oven plant as claimed in claim 9, wherein one end of the cross casing column (2879) is provided with a blocking block (28710).