阅读说明：本技术 一种基于环境保护可清理焚渣的防尘式火力发电焚烧塔 (Dust protected thermal power burns tower based on environmental protection can clear up and burn sediment ) 是由 宋启辉 于 2021-09-26 设计创作，主要内容包括：本发明涉及一种防尘式火力发电焚烧塔,尤其涉及一种基于环境保护可清理焚渣的防尘式火力发电焚烧塔,包括有底架、焚烧炉、发电机构、分筛机构、漏料机构等；底架上固定安装有焚烧炉,焚烧炉顶部固定安装有发电机构,底架上设置有分筛机构,漏料机构设置在焚烧炉上。通过分筛筒转动将下料管及焚烧炉内壁上粘黏的污泥刮除,使其掉落至焚烧炉内过滤板上,同时扇形转动架不再将过滤板上一部分焚渣挡住,使得过滤板上的焚渣掉落至底架上,便于后期对焚渣进行清理。(The invention relates to a dustproof thermal power incineration tower, in particular to a dustproof thermal power incineration tower capable of cleaning incineration residues based on environmental protection, which comprises an underframe, an incinerator, a power generation mechanism, a screening mechanism, a material leaking mechanism and the like; the incinerator is fixedly mounted on the bottom frame, the power generation mechanism is fixedly mounted at the top of the incinerator, the screening mechanism is arranged on the bottom frame, and the material leaking mechanism is arranged on the incinerator. Sticky mud strikes off on rotating with blanking pipe and the incinerator inner wall through a sub-sieve section of thick bamboo, makes it drop to the incinerator in the filter on, fan-shaped rotating turret no longer blocks the filter is partly burnt the sediment simultaneously for burn on the filter the sediment and drop to the chassis, the later stage of being convenient for is to burning the sediment and is cleared up.)

1. The utility model provides a dust protected thermal power incineration tower based on environmental protection can clear up and burn sediment which characterized in that, including chassis (1), burn burning furnace (2), power generation mechanism (3), divide sieve mechanism (4), leak material mechanism (5) and intermittent type nature scarfing cinder mechanism (6), fixed mounting burns burning furnace (2) on chassis (1), burn burning furnace (2) top fixed mounting and have power generation mechanism (3), be provided with on chassis (1) and divide sieve mechanism (4), leak material mechanism (5) and set up on burning furnace (2), intermittent type nature scarfing cinder mechanism (6) set up on dividing sieve mechanism (4).

2. The dust-proof thermal power generation incineration tower capable of cleaning incineration slag based on environmental protection is characterized in that a power generation mechanism (3) comprises a piston rod (30), a piston rod (31), a first return spring (32), an L-shaped support frame (33), a long swing rod (34), a long shaft (35), a rotary disc (36), a slotted swing rod (37), a sliding sleeve (38), a second return spring (39), a valve body (310), a valve core (311) and a third return spring (312), the piston rod (30) is fixedly installed at the top of the incineration furnace (2), the piston rod (30) is slidably connected with the piston rod (31), the piston rod (31) is fixedly connected with the first return spring (32), one end of the first return spring (32) is connected with the piston rod (30), the L-shaped support frame (33) is welded above the piston rod (30), articulated on piston rod (31) have long swinging arms (34), L type support frame (33) top rotary type is connected with major axis (35), the rigid coupling has carousel (36) on major axis (35), major axis (35) one end rigid coupling has fluting swinging arms (37), sliding sleeve (38) are connected on fluting swinging arms (37) with the mode that can rise to, sliding sleeve (38) are connected with long swinging arms (34) rotary type, the hookup has second reset spring (39) on sliding sleeve (38), second reset spring (39) one end and fluting swinging arms (37) fixed connection, valve body (310) are located in piston rod (30), valve body (310) internal sliding formula is connected with case (311), hookup has third reset spring (312) between case (311) and valve body (310).

3. The dust-proof thermal power generation incineration tower capable of cleaning incineration slag based on environmental protection as claimed in claim 2, wherein the screening mechanism (4) comprises a special-shaped perforated support frame (41), a short shaft (42), a first dial wheel (43), a belt pulley (44), an inclined support frame (45), a transmission belt (451), a blanking pipe (46), a universal joint (47), a first gear (48), a screening cylinder (49), a second gear (410) and a second dial wheel (411), the special-shaped perforated support frame (41) is arranged on the chassis (1), the short shaft (42) is rotatably connected above the special-shaped perforated support frame (41), the first dial wheel (43) is fixedly connected on the short shaft (42), the belt pulley (44) is arranged on the short shaft (42), a belt pulley (44) is also fixedly connected on the long shaft (35), the transmission belt (451) is connected between the two belt pulleys (44), inclined support frame (45) fixed mounting is on chassis (1), be provided with down material pipe (46) on inclined support frame (45), the rotation type is connected with universal joint (47) on inclined support frame (45), universal joint (47) are connected with heterotypic trompil support frame (41) rotary type, the rigid coupling has first gear (48) on universal joint (47), burn burning furnace (2) internal rotation formula and be connected with a branch sieve section of thick bamboo (49), divide sieve section of thick bamboo (49) and be connected with down material pipe (46) rotary type, be provided with second gear (410) on dividing sieve section of thick bamboo (49), second gear (410) and first gear (48) intermeshing, universal joint (47) one end welding has dial wheel two (411), dial wheel two (411) and dial wheel one (43) contact each other.

4. The dust-proof thermal power generation incineration tower capable of cleaning incineration slag based on environmental protection according to claim 3, wherein the material leakage mechanism (5) comprises a Q-shaped slotted frame (51), a trapezoidal material leakage box (52), a wedge-shaped valve plate (53), a fourth return spring (54), a Z-shaped slotted frame (55), a special-shaped push rod (56) and a fifth return spring (57), the Q-shaped slotted frame (51) is welded on the incinerator (2), the Q-shaped slotted frame (51) is fixedly connected with the top surface of the blanking pipe (46), the trapezoidal material leakage box (52) is fixedly installed on the top surface of the Q-shaped slotted frame (51), the wedge-shaped valve plate (53) is slidably connected on the Q-shaped slotted frame (51), the fourth return spring (54) is connected between the wedge-shaped valve plate (53) and the Q-shaped slotted frame (51), the Z-shaped slotted frame (55) is vertically connected on the top surface of the Q-shaped slotted frame (51), the special-shaped push rod (56) is connected to the Z-shaped slotted frame (55) in a lifting mode, the special-shaped push rod (56) is in contact with the wedge-shaped valve plate (53), the special-shaped push rod (56) is in contact with the piston rod (31), a fifth reset spring (57) is fixedly connected to the special-shaped push rod (56), and one end of the fifth reset spring (57) is connected with the Z-shaped slotted frame (55).

5. The dust-proof thermal power incineration tower capable of cleaning incineration slag based on environmental protection according to claim 4, characterized in that the intermittent slag removal mechanism (6) comprises a band rod shifting wheel (61), a disk (62), a connecting rod (63), a shifting rod rotating wheel (64), a fan-shaped rotating frame (65) and a filter plate (66), the band rod shifting wheel (61) is rotatably connected below the special-shaped perforated support frame (41), the disk (62) is fixedly connected to the band rod shifting wheel (61), the disk (62) is fixedly connected to one end of the short shaft (42) in the same way, the connecting rod (63) is rotatably connected to the two disks (62) together, the shifting rod rotating wheel (64) is rotatably connected to the bottom of the incinerator (2), the rotating wheel (64) and the band rod shifting wheel (61) are in contact with each other, the fan-shaped rotating frame (65) is fixedly connected to the shifting rod rotating wheel (64), the filter plate (66) is positioned in the incinerator (2), the filter plate (66) is rotatably connected with the poking rod rotating wheel (64), and the sector rotating frame (65) is contacted with the filter plate (66).

6. The dust-proof thermal power generation incineration tower capable of cleaning incineration slag based on environmental protection according to claim 5, characterized in that the dust removal incineration tower further comprises a dust removal mechanism (7), the incineration furnace (2) is provided with the dust removal mechanism (7), the dust removal mechanism (7) comprises a dust removal box body (71), a special-shaped slide rail frame (72), a special-shaped scraper plate (73), a sixth reset spring (74) and a dust removal filter plate (75), the incineration furnace (2) is provided with the dust removal box body (71), the dust removal box body (71) is provided with an air outlet, the dust removal box body (71) is fixedly connected with the piston rod (30), the special-shaped slide rail frame (72) is fixedly installed on the dust removal box body (71), the special-shaped scraper plate (73) is connected with the dust removal box body (71) in a lifting manner, the special-shaped scraper plate (73) is in sliding connection with the piston rod (30), the special-shaped scraping plate (73) is also contacted with the piston rod (31), a sixth return spring (74) is connected to the special-shaped scraping plate (73), one end of the sixth return spring (74) is fixedly connected with the special-shaped sliding rail frame (72), a dust removing filter plate (75) is distributed in the dust removing box body (71), and the dust removing filter plate (75) is contacted with the special-shaped scraping plate (73).

Technical Field

The invention relates to a dustproof thermal power generation incineration tower, in particular to a dustproof thermal power generation incineration tower capable of cleaning incineration residues based on environmental protection.

Background

For modern sewage treatment plants, the treatment and disposal of sludge become the most complex and expensive part of the operation of a sewage treatment system, the sludge treatment is a reduction, stabilization and harmless processing process of concentrating, modifying, dehydrating, stabilizing, drying or incinerating the sludge, and the higher the sewage treatment degree is, the more sludge residues are generated to be treated.

The existing sludge innocent treatment method generally adopts an incineration tower to carry out innocent treatment on sludge, generally adopts plate placed heat carrier sand as a combustion bed, refractory materials in the tower can incinerate the sludge all the time, the continuous combustion of the incineration tower easily influences the heating effect of the incineration tower, and the investment cost of the incineration tower is higher.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a dustproof thermal power generation incineration tower capable of incinerating sludge, cleaning incineration residues and filtering incineration gases for multiple times, and capable of cleaning the incineration residues based on environmental protection, so as to solve the problems that the heating effect is easily influenced and the investment cost of the incineration tower is high due to continuous combustion of the conventional incineration tower in the background art.

The utility model provides a dustproof thermal power burns tower based on environmental protection can clear up and burn sediment, includes the chassis, burns burning furnace, power generation mechanism, divides sieve mechanism, leaks material mechanism and intermittent type nature scarfing cinder mechanism, and fixed mounting has burning furnace on the chassis, burns burning furnace top fixed mounting and has power generation mechanism, is provided with on the chassis and divides sieve mechanism, leaks material mechanism and sets up on burning furnace, and intermittent type nature scarfing cinder mechanism sets up on dividing sieve mechanism.

Further, the power generation mechanism comprises a piston rod, a first reset spring, an L-shaped support frame, a long swing rod, a long shaft, a rotary disc, a slotted swing rod, a sliding sleeve, a second reset spring, a valve body, a valve core and a third reset spring, wherein the top of the incinerator is fixedly provided with the piston rod, the piston rod is connected with the piston rod in a sliding manner, the first reset spring is fixedly connected on the piston rod, one end of the first reset spring is connected with the piston rod, the L-shaped support frame is welded above the piston rod, the long swing rod is hinged on the piston rod, the long shaft is rotatably connected above the L-shaped support frame, the rotary disc is fixedly connected on the long shaft, one end of the long shaft is fixedly connected with the slotted swing rod, the sliding sleeve is connected on the slotted swing rod in a lifting manner, the sliding sleeve is rotatably connected with the long swing rod, the sliding sleeve is connected with the second reset spring, one end of the second reset spring is fixedly connected with the slotted swing rod, the valve body is positioned in the piston rod, the valve core is connected in the valve body in a sliding mode, and a third return spring is connected between the valve core and the valve body.

Further, the screen separating mechanism comprises a special-shaped perforated support frame, a short shaft, a first driving plate wheel, a belt wheel, an inclined support frame, a transmission belt, a blanking pipe, a universal joint, a first gear, a screen separating cylinder, a second gear and a second driving plate wheel, the special-shaped perforated support frame is arranged on the underframe, the short shaft is rotatably connected above the special-shaped perforated support frame, the first driving plate wheel is fixedly connected on the short shaft, the belt wheel is arranged on the short shaft, the belt wheel is fixedly connected on the long shaft, the transmission belt is in transmission connection between the two belt wheels, the inclined support frame is fixedly arranged on the underframe, the blanking pipe is arranged on the inclined support frame, the universal joint is rotatably connected with the special-shaped perforated support frame, the first gear is fixedly connected on the universal joint, the screen separating cylinder is rotatably connected in the incinerator, the screen separating cylinder is rotatably connected with the blanking pipe, the second gear is arranged on the screen separating cylinder, the second gear is meshed with the first gear, one end of the universal joint is welded with a second driving plate wheel, and the second driving plate wheel is in contact with the first driving plate wheel.

Further, the material leaking mechanism comprises a Q-shaped slotting frame, a trapezoidal material leaking box, a wedge-shaped valve plate, a fourth reset spring, a Z-shaped slotting frame, a special-shaped push rod and a fifth reset spring, the Q-shaped slotting frame is welded on the incinerator and fixedly connected with the top surface of the blanking tube, the trapezoidal material leaking box is fixedly installed on the top surface of the Q-shaped slotting frame, the wedge-shaped valve plate is slidably connected onto the Q-shaped slotting frame, the fourth reset spring is connected between the wedge-shaped valve plate and the Q-shaped slotting frame, the Z-shaped slotting frame is vertically connected onto the top surface of the Q-shaped slotting frame, the special-shaped push rod is connected onto the Z-shaped slotting frame in a lifting mode, the special-shaped push rod is in contact with the wedge-shaped valve plate, the special-shaped push rod is in contact with a piston rod, the fifth reset spring is fixedly connected onto the special-shaped push rod, and one end of the fifth reset spring is connected with the Z-shaped slotting frame.

It explains further that intermittent type nature scarfing cinder mechanism is including taking the pole thumb wheel, the disc, the connecting rod, the driving lever swiveling wheel, fan-shaped rotating turret and filter, abnormal shape trompil support frame below rotary type is connected with takes the pole thumb wheel, the rigid coupling has the disc on taking the pole thumb wheel, the same rigid coupling of minor axis one end has the disc, common rotary type is connected with the connecting rod on two discs, burn burning furnace bottom rotary type and be connected with the driving lever swiveling wheel, driving lever swiveling wheel and take the pole thumb wheel to contact each other, the rigid coupling has fan-shaped rotating turret on the driving lever swiveling wheel, the filter is located in burning furnace, the filter is connected with driving lever swiveling wheel rotary type, fan-shaped rotating turret and filter be in contact with each other.

The incinerator is further provided with a dust removal mechanism, the dust removal mechanism is arranged on the incinerator and comprises a dust removal box body, a special-shaped slide rail frame, a special-shaped scraping plate, a sixth reset spring and a dust removal filter plate, the dust removal box body is arranged on the incinerator and is provided with an air outlet, the dust removal box body is fixedly connected with a piston rod, the special-shaped slide rail frame is fixedly installed on the dust removal box body, the special-shaped scraping plate is connected with the special-shaped sliding rail frame in a lifting mode and is connected with the dust removal box body in a sliding mode, the special-shaped scraping plate is in contact with the piston rod, the special-shaped scraping plate is also in contact with a piston rod, the sixth reset spring is connected onto the special-shaped scraping plate, one end of the sixth reset spring is fixedly connected with the special-shaped slide rail frame, the dust removal filter plate is arranged in the dust removal box body in a distributed mode, and the dust removal filter plate is in contact with the special-shaped scraping plate.

The invention has the beneficial effects that:

the Q-shaped slotting frame is opened by moving towards the direction far away from the L-shaped supporting frame through the wedge-shaped valve plate, the bottom of the trapezoidal material leaking box is no longer blocked by the wedge-shaped valve plate, and sludge in the trapezoidal material leaking box enters the filter plate in the incinerator through the discharging pipe and the screening drum, so that the incinerator is convenient to incinerate the sludge.

Sticky mud strikes off on rotating with blanking pipe and the incinerator inner wall through a sub-sieve section of thick bamboo, makes it drop to the incinerator in the filter on, fan-shaped rotating turret no longer blocks the filter is partly burnt the sediment simultaneously for burn on the filter the sediment and drop to the chassis, the later stage of being convenient for is to burning the sediment and is cleared up.

In the gaseous meeting entering dust removal box of combustion gas in the piston thick stick, can have a large amount of dust in the gas, the filter plate that removes dust carries out the filtration many times to gas, is discharged from the gas outlet of dust removal box by filterable gas, avoids the dust to pollute the outside air.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a schematic perspective view of the underframe and incinerator of the present invention.

Fig. 4 is a schematic partial perspective view of the power generation mechanism of the present invention.

Fig. 5 is a partially-disassembled three-dimensional structure schematic diagram of the power generation mechanism of the invention.

Fig. 6 is a schematic partial perspective view of the screening mechanism of the present invention.

Fig. 7 is a partially disassembled perspective structure schematic diagram of the screening mechanism of the present invention.

Fig. 8 is a schematic perspective view of the material leaking mechanism of the present invention.

Fig. 9 is a schematic partial perspective view of the material leaking mechanism of the present invention.

Fig. 10 is an enlarged schematic view of the structure of the present invention a.

FIG. 11 is a partially disassembled perspective view of the intermittent slag removal mechanism of the present invention.

Fig. 12 is a schematic partial perspective view of the dust removing mechanism of the present invention.

Fig. 13 is a partially-disassembled three-dimensional structure schematic diagram of the dust removing mechanism of the invention.

Reference numbers in the drawings: 1: chassis, 2: incinerator, 3: power generation mechanism, 30: piston rod, 31: piston rod, 32: first return spring, 33: l-shaped support, 34: long oscillating lever, 35: major axis, 36: turntable, 37: slotted oscillating lever, 38: sliding sleeve, 39: second return spring, 310: valve body, 311: spool, 312: third return spring, 4: screening mechanism, 41: heterotypic trompil support frame, 42: minor axis, 43: dial wheel one, 44: pulley, 45: inclined support frame, 451: drive belt, 46: blanking pipe, 47: universal joint, 48: first gear, 49: a screening drum, 410: second gear, 411: dial wheel two, 5: material leaking mechanism, 51: slotted frame type Q, 52: trapezoidal hourglass workbin, 53: wedge valve plate, 54: fourth return spring, 55: z-slotted frame, 56: heterotypic catch bar, 57: fifth return spring, 6: intermittent slag removal mechanism, 61: band lever thumb wheel, 62: disc, 63: connecting rod, 64: driving lever swiveling wheel, 65: sector turret, 66: filter plate, 7: dust removal mechanism, 71: dust removal box, 72: special-shaped slide rail frame, 73: profiled scraper plate, 74: sixth return spring, 75: and (4) a dust removal filter plate.

Detailed Description

In order to make the technical solution and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example 1

The utility model provides a can clear up dust protected thermal power incineration tower of burning sediment based on environmental protection, as shown in fig. 1-11, including chassis 1, burn burning furnace 2, power generation mechanism 3, divide sieve mechanism 4, leak material mechanism 5 and intermittent type nature scarfing cinder mechanism 6, fixed mounting has the burning furnace 2 that is used for burning mud on chassis 1, burn 2 top fixed mounting of burning furnace and have power generation mechanism 3, be provided with on chassis 1 and divide sieve mechanism 4, leak material mechanism 5 and set up on burning furnace 2, the intermittent type nature scarfing cinder mechanism 6 that is used for intermittent type nature will burn the sediment clearance sets up on dividing sieve mechanism 4.

The power generation mechanism 3 comprises a piston rod 30, a piston rod 31, a first return spring 32, an L-shaped support frame 33, a long swing rod 34, a long shaft 35, a rotary disc 36, a slotted swing rod 37, a sliding sleeve 38, a second return spring 39, a valve body 310, a valve core 311 and a third return spring 312, the top of the incinerator 2 is fixedly provided with the piston rod 30, the piston rod 30 is connected with the piston rod 31 in a sliding way, the piston rod 31 is used for blocking an exhaust port of the piston rod 30, the piston rod 31 is fixedly connected with the first return spring 32, one end of the first return spring 32 far away from the piston rod 31 is connected with the piston rod 30, the L-shaped support frame 33 is welded above the piston rod 30, the piston rod 31 is hinged with the long swing rod 34, the long shaft 35 is rotatably connected above the L-shaped support frame 33, the rotary disc 36 is fixedly connected on the long shaft 35, one end of the long shaft 35 is fixedly connected with the slotted swing rod 37, the sliding sleeve 38 is connected on the slotted swing rod 37 in a lifting way, the sliding sleeve 38 is rotatably connected with the long swing rod 34, a second return spring 39 is connected to the sliding sleeve 38, one end of the second return spring 39, which is far away from the sliding sleeve 38, is fixedly connected with the slotted swing rod 37, the valve body 310 is positioned in the piston rod 30, a valve core 311 is connected in the valve body 310 in a sliding mode, the valve core 311 is used for blocking the valve body 310, and a third return spring 312 is connected between the valve core 311 and the valve body 310.

The screening mechanism 4 comprises a special-shaped perforated support frame 41, a short shaft 42, a first dial wheel 43, a belt pulley 44, an inclined support frame 45, a transmission belt 451, a blanking pipe 46, a universal joint 47, a first gear 48, a screening cylinder 49, a second gear 410 and a second dial wheel 411, the special-shaped perforated support frame 41 is arranged on the underframe 1, the short shaft 42 is rotatably connected above the special-shaped perforated support frame 41, the first dial wheel 43 is fixedly connected on the short shaft 42, the belt pulley 44 is arranged on the short shaft 42, the long shaft 35 far away from the turntable 36 is also fixedly connected with the belt pulley 44, the transmission belt 451 is in transmission connection between the two belt pulleys 44, the inclined support frame 45 is fixedly arranged on the underframe 1, the blanking pipe 46 is arranged on the inclined support frame 45, the universal joint 47 is rotatably connected on the inclined support frame 45, the universal joint 47 far away from the inclined support frame 45 is rotatably connected with the special-shaped perforated support frame 41, the first gear 48 is fixedly connected on the universal joint 47, the incinerator 2 is rotatably connected with a screen separating cylinder 49, the screen separating cylinder 49 is rotatably connected with the blanking pipe 46, a second gear 410 is arranged on the screen separating cylinder 49, the second gear 410 is meshed with the first gear 48, one end of a universal joint 47 close to the special-shaped perforated support frame 41 is welded with a second dial wheel 411, and the second dial wheel 411 is in contact with the first dial wheel 43.

The material leaking mechanism 5 comprises a Q-shaped slotted frame 51, a trapezoidal material leaking box 52, a wedge-shaped valve plate 53, a fourth reset spring 54, a Z-shaped slotted frame 55, a special-shaped push rod 56 and a fifth reset spring 57, the Q-shaped slotted frame 51 is welded on the incinerator 2, the Q-shaped slotted frame 51 is fixedly connected with the top surface of the blanking pipe 46, the trapezoidal material leaking box 52 is fixedly installed on the top surface of the Q-shaped slotted frame 51, the wedge-shaped valve plate 53 is connected on the Q-shaped slotted frame 51 in a sliding manner, the wedge-shaped valve plate 53 is used for blocking the bottom of the trapezoidal material leaking box 52, the fourth reset spring 54 is connected between the wedge-shaped valve plate 53 and the Q-shaped slotted frame 51, the Z-shaped slotted frame 55 is vertically connected on the top surface of the Q-shaped slotted frame 51, the special-shaped push rod 56 is connected on the Z-shaped slotted frame 55 in a lifting manner, the special-shaped push rod 56 is in contact with the wedge-shaped valve plate 53, the special-shaped push rod 56 is used for pushing the wedge-shaped valve plate 53 to move towards the direction away from the L-shaped supporting frame 33, the special-shaped push rod 56 is in contact with the piston rod 31, the piston rod 31 is used for pushing the special-shaped push rod 56 to move upwards, a fifth return spring 57 is fixedly connected to the special-shaped push rod 56, and one end, far away from the special-shaped push rod 56, of the fifth return spring 57 is connected with the Z-shaped slotted frame 55.

Intermittent type nature scarfing cinder mechanism 6 is including taking pole thumb wheel 61, disc 62, connecting rod 63, driving lever swiveling wheel 64, fan-shaped rotating turret 65 and filter 66, the heterotypic trompil support frame 41 below that keeps away from thumb wheel 43 is the rotary type and is connected with takes pole thumb wheel 61, the rigid coupling has disc 62 on taking pole thumb wheel 61, the same rigid coupling of minor axis 42 one end has disc 62, common rotary type is connected with connecting rod 63 on two discs 62, burn 2 bottoms rotary type and be connected with driving lever swiveling wheel 64, driving lever swiveling wheel 64 and take pole thumb wheel 61 inter contact, the rigid coupling has fan-shaped rotating turret 65 on driving lever swiveling wheel 64, fan-shaped rotating turret 65 is used for blocking the partly sediment that burns on filter 66, filter 66 is located and burns in burning furnace 2, filter 66 is used for filtering the sediment that burns, filter 66 is connected with driving lever 64 rotary type, fan-shaped rotating turret 65 and filter 66 inter contact.

When sludge needs to be harmlessly treated, other equipment firstly dries the sludge, then the dried sludge is conveyed into the trapezoidal material leakage box 52, sludge blocks needing to be incinerated are arranged in the incinerator 2, the filter plate 66 can block the sludge blocks, the incinerator 2 incinerates the sludge blocks on the filter plate 66, the sludge blocks can form incineration slag after being incinerated, the incineration slag can fall onto the underframe 1 through the filter plate 66, the fan-shaped rotating frame 65 blocks a part of the incineration slag, gas can be generated in the sludge incineration process, the gas above the incinerator 2 can push the piston rod 31 to move upwards, the piston rod 31 drives the sliding sleeve 38 and the upper device thereof to rotate through the long swinging rod 34, the slotted swinging rod 37 drives the long shaft 35 and the upper device thereof to rotate, the long shaft 35 is connected with external power generation equipment, and further drives the external power generation equipment to generate power through the rotation of the long shaft 35, the thermal power generation using the incineration sludge block can be realized by the above operation. The gas in the incinerator 2 continues to increase, the gas in the piston rod 30 can push the piston rod 31 to continue to move upwards, the piston rod 31 can push the long swing rod 34 and the sliding sleeve 38 to move upwards, the second return spring 39 is compressed, the piston rod 31 does not block the exhaust port of the piston rod 30 any more, the gas can push the valve core 311 to move towards the direction away from the L-shaped support frame 33, the valve core 311 does not block the valve body 310 any more, and therefore the gas can be discharged from the piston rod 30 through the valve body 310. Then, the gas in the incinerator 2 and the piston rod 30 is reduced, the stretched first return spring 32 is reset to drive the piston rod 31 to move downwards and reset, the piston rod 31 drives the sliding sleeve 38 and the device on the sliding sleeve to rotate continuously and reset through the long swinging rod 34, the piston rod 31 moves downwards to block the exhaust port of the piston rod 30, the compressed third return spring 312 resets to drive the valve core 311 to move towards the direction close to the L-shaped support frame 33, the valve core 311 blocks the valve body 310, the gas is not discharged from the piston rod 30, the gas is continuously generated in the incinerator 2, the operation is repeated, and the gas is discharged intermittently.

The upward movement of the piston rod 31 can push the special-shaped push rod 56 to move upward, the special-shaped push rod 56 can push the wedge-shaped valve plate 53 to move towards the direction away from the L-shaped support frame 33, the Q-shaped slotted frame 51 is opened by the wedge-shaped valve plate 53, the bottom of the trapezoidal material leakage box 52 is no longer blocked by the wedge-shaped valve plate 53, and sludge in the trapezoidal material leakage box 52 enters the filter plate 66 in the incinerator 2 through the discharging pipe 46 and the screening cylinder 49. The piston rod 31 moves downwards to be separated from the special-shaped push rod 56, the compressed fourth reset spring 54 resets to drive the wedge-shaped valve plate 53 to move towards the direction close to the L-shaped support frame 33, the wedge-shaped valve plate 53 blocks the bottom of the trapezoid material leakage box 52, and sludge in the trapezoid material leakage box 52 does not drop into the incinerator 2 any more.

The rotation of the long shaft 35 drives a belt pulley 44 to rotate, the belt pulley 44 drives the short shaft 42 and the upper device thereof to rotate through a transmission belt 451, the first dial wheel 43 drives the second dial wheel 411 and the upper device thereof to rotate, the first gear 48 drives the second gear 410 and the screening cylinder 49 to rotate, and the screening cylinder 49 rotates to scrape off the sludge adhered to the inner wall of the discharge pipe 46 and the incinerator 2, so that the sludge falls onto the filter plate 66 in the incinerator 2. Meanwhile, the short shaft 42 drives a disc 62 to rotate, the disc 62 drives a rod-carrying dial wheel 61 to rotate through a connecting rod 63, the rod-carrying dial wheel 61 rotates to push a dial rod rotating wheel 64 and the upper device to rotate, the fan-shaped rotating frame 65 does not block part of the burnt slag on the filter plate 66, the burnt slag on the filter plate 66 falls onto the bottom frame 1, and the burnt slag is cleaned in the later period of a worker. Repeating the operation to carry out innocent treatment on the sludge.

Example 2

On the basis of embodiment 1, as shown in fig. 12 to 13, the dust removing device further includes a dust removing mechanism 7, the incinerator 2 is provided with the dust removing mechanism 7, the dust removing mechanism 7 is used for removing dust in gas, the dust removing mechanism 7 includes a dust removing box body 71, a special-shaped slide rail bracket 72, a special-shaped scraping plate 73, a sixth return spring 74 and a dust removing filter plate 75, the incinerator 2 is provided with the dust removing box body 71 for removing dust, the dust removing box body 71 is provided with an air outlet, the dust removing box body 71 is fixedly connected with the piston rod 30, the dust removing box body 71 is fixedly provided with the special-shaped slide rail bracket 72, the special-shaped scraping plate 73 is connected to the special-shaped slide rail bracket 72 in a lifting manner, the special-shaped scraping plate 73 is used for scraping off dust adhered to the dust removing filter plate 75, the special-shaped scraping plate 73 is slidably connected to the dust removing box body 71, the special-shaped scraping plate 73 is in contact with the piston rod 30, the special-shaped scraping plate 73 is also in contact with the piston rod 31, the special-shaped scraping plate 73 is connected with a sixth return spring 74 in a connecting mode, one end, far away from the special-shaped scraping plate 73, of the sixth return spring 74 is fixedly connected with the special-shaped sliding rail frame 72, the dust removal filter plates 75 are distributed in the dust removal box body 71 and used for filtering gas, and the dust removal filter plates 75 are in contact with the special-shaped scraping plate 73.

When the incinerator 2 incinerates sludge, the gas discharged from the piston rod 30 enters the dust removal tank 71, a large amount of dust exists in the gas, the gas is filtered by the dust removal filter plate 75, and the filtered gas can be discharged from the gas outlet of the dust removal tank 71. When the piston rod 31 moves upward, the piston rod 31 is separated from the special-shaped scraping plate 73, the sixth reset spring 74 in the stretching state resets to drive the special-shaped scraping plate 73 to move upward, and the special-shaped scraping plate 73 scrapes off dust adhered to the dedusting filter plate 75 to prevent the dust from blocking meshes on the dedusting filter plate 75. When the piston rod 31 moves downwards, the piston rod 31 pushes the profiled scraping plate 73 to move downwards and reset.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.