CN113430013A

CN113430013A - High-efficient purification treatment equipment of condensable organic matter

Info

Publication number: CN113430013A
Application number: CN202110806076.3A
Authority: CN
Inventors: 梁锐
Original assignee: Renhuai Youxin Environmental Protection Co ltd
Current assignee: Nanjing Jinzai New Energy Dynamics Research Institute Co ltd
Priority date: 2021-07-16
Filing date: 2021-07-16
Publication date: 2021-09-24
Anticipated expiration: 2041-07-16
Also published as: CN113430013B

Abstract

The invention discloses high-efficiency purification treatment equipment for condensable organic matters, which comprises a boiler shell, wherein the boiler shell is provided with a combustion space and a first through hole, a boiler pipeline is arranged in the first through hole and provided with a first space, and the boiler pipeline is provided with an upper through hole; the adsorption mechanism is positioned in the first space and is used for adsorbing tar at the outlet of the gasification furnace; the scattering mechanism is located above the first space and used for scattering the biological adsorbent.

Description

High-efficient purification treatment equipment of condensable organic matter

Technical Field

The invention belongs to the field of boilers, and particularly relates to high-efficiency purification treatment equipment for condensable organic matters.

Background

With the development of the advanced times of society, the improvement of a boiler becomes an indispensable means at present, a layer of black and long-lasting tar is accumulated in a pipeline of the existing gasification furnace used for a period of time, and most of the existing gasification furnaces omit tar filtration for appearance and can stay in the pipeline for a long time or plug the pipeline. And although the burnt effect can not see smoke, a layer of black matter can be seen on the bottom of the pot after a period of time, and the burnt effect can not be wiped off. At present, the gasification furnace is the most troublesome thing, so the equipment capable of efficiently removing tar on the inner wall of a boiler pipeline is urgently needed to be designed.

Disclosure of Invention

The invention provides equipment capable of efficiently removing tar on the inner wall of a boiler pipeline in order to overcome the defects of the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme: a high-efficiency purification treatment device for condensable organic matters comprises a boiler shell, wherein the boiler shell is provided with a combustion space, the boiler shell is provided with a first through hole, a boiler pipeline is arranged in the first through hole, the boiler pipeline is provided with a first space, and the boiler pipeline is provided with an upper through hole;

the adsorption mechanism is positioned in the first space and is used for adsorbing tar at the outlet of the gasification furnace;

the scattering mechanism is located above the first space and used for scattering the biological adsorbent.

Preferably, the boiler casing still sets up the second through-hole of two bilateral symmetry, the left and right sides of boiler casing is fixed respectively and is provided with a first air exhauster, two the fixed first air extraction pipeline that is provided with of one end that first air exhauster is close to each other, first air extraction pipeline is located in the second through-hole, the fixed fly ash plate that is provided with on the lateral wall in combustion space, the motor groove has been seted up to boiler casing, the fixed motor that is provided with in the motor groove, the fixed rotatory piece that is provided with of output of motor, the discharge gate of two bilateral symmetry is seted up to the last lateral wall in combustion space, the discharge gate with the combustion space intercommunication, the third through-hole has been seted up to first through-hole top, be provided with the storage silo in the third through-hole, the storage silo is fixed to be set up the up end face of boiler pipeline.

Preferably, the adsorption mechanism is including fixed setting up second air exhauster in the first space, the butt spout has been seted up in the first space, it is provided with rotatory filter to slide in the first space, rotatory filter has seted up the second groove, rotatory filter has seted up a plurality of filtration pores, filter the pore with the second groove intercommunication, the fixed dwang that is provided with of right-hand member face of rotatory filter, the outer peripheral side of dwang evenly is provided with a plurality of flabellums, the outer peripheral side of dwang is fixed to be provided with the butt pole, the butt pole with butt spout butt, the groove that falls has seted up of boiler casing, fall groove one end with the second groove intercommunication falls, the groove other end that falls communicates with the combustion space.

Preferably, the scattering mechanism comprises a first sliding block which is arranged in the second groove in a sliding manner, the left side wall and the right side wall of the first sliding block are respectively and fixedly connected with a first fixed block between the left side wall and the right side wall of the upper through hole, the first slide block is provided with a rotating space, the rear side wall of the rotating space is provided with a first groove, the lower end surface of the first groove is provided with teeth, the rear side wall of the rotating space is rotatably provided with a second rotating block, the second rotating block is sleeved with a gear meshed with the teeth, six first fixing blocks are uniformly arranged on the side surface of the outer circumference of the second rotating block along the circumferential direction of the second rotating block, the first fixed block is provided with a third groove, a third fixed block is rotatably arranged between the front side wall and the rear side wall of the third groove, the third fixed block is fixedly sleeved with a shifting lever, and a torsion spring is fixedly arranged between the shifting lever and the side wall of the third groove.

Preferably, the first slider is provided with two bilaterally symmetrical spring grooves, the upper side walls of the two spring grooves are respectively and fixedly provided with a telescopic rod, a third slider is slidably arranged in each spring groove and is abutted against the shift lever, a spring is connected between the upper end face of each third slider and the upper side wall of the corresponding spring groove, the first slider is provided with a first groove which is communicated with the spring groove, a connecting rod is slidably arranged in the first groove, the upper end face of the first slider is provided with two bilaterally symmetrical second grooves, a first rotating block is rotatably arranged in each second groove, the side wall of each second groove is provided with a third groove, a second slider is slidably arranged in each third groove, and each second slider is respectively and fixedly connected with the corresponding first rotating block, and a plurality of second fixing blocks are uniformly arranged on the side surfaces of the outer circumferences of the upper parts of the two first rotating blocks along the circumferential direction of the first rotating blocks.

In summary, the invention has the following advantages:

1. and the adsorption mechanism is used for adsorbing tar at the outlet of the gasification furnace, and simultaneously can burn the adsorbed tar from the inside newly introduced into the gasification furnace to reduce secondary emission.

2. The scattering mechanism is used for scattering the biological adsorbent, so that the biomass adsorbent can be effectively scattered to be conveniently adsorbed in the second groove, and the biomass adsorbent is prevented from being mutually supported and being difficult to fall.

Drawings

FIG. 1 is a sectional view of a high-efficiency purifying treatment apparatus for condensable organic compounds according to an embodiment of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at I;

FIG. 3 is an enlarged view of a portion of FIG. 2 at II;

fig. 4 is a partial enlarged view of fig. 3 at iii.

In the figure, a boiler casing 10; a first exhaust fan 11; a first suction duct 12; a door 13; an ash plate 14; a combustion space 15; a rotating block 16; a motor 17; a discharge port 18; a coal bin 19; a storage bin 20; a drop chute 21; a boiler pipe 22; 23; a first fixing block 24; the first space 25; a rotary filter plate 26; the rotating rod 27; fan blades 28; an abutting rod 29; an abutting sliding groove 30; a first groove 31; a second groove 32; a first slider 33; a first rotating block 34; a second fixing block 35; a second slider 36; a second turning block 37; a third groove 38; a third fixing block 39; a shift lever 40; a spring groove 41; a spring 42; an expansion link 43; a second suction fan 44; a third slider 45; a connecting rod 46.

Detailed Description

As shown in fig. 1, the high-efficiency purification treatment equipment for condensable organic substances comprises a high-efficiency purification treatment equipment for condensable organic substances, which comprises a boiler shell 10, and is characterized in that: the boiler shell 10 is provided with a combustion space 15, the boiler shell 10 is provided with a first through hole, a boiler pipeline 22 is arranged in the first through hole, the boiler pipeline 22 is provided with a first space 25, and the boiler pipeline 22 is provided with an upper through hole;

the adsorption mechanism A01, the adsorption mechanism A01 is positioned in the first space 25, and the adsorption mechanism A01 is used for adsorbing tar at the outlet of the gasification furnace;

a breaking mechanism A02, A02 is located above the first space 25, and A02 is used for breaking up the biological adsorbent.

Referring to fig. 1-4, two bilateral second through holes are further formed in the boiler housing 10, a first exhaust fan 11 is fixedly disposed on each of the left and right sides of the boiler housing 10, a first exhaust duct 12 is fixedly disposed at one end of each of the two first exhaust fans 11, the first exhaust duct 12 is located in each of the second through holes, a boiler ash plate 14 is fixedly disposed on the side wall of the combustion space 15, a motor slot is formed in the boiler housing 10, a motor 17 is fixedly disposed in the motor slot, a rotating block 16 is fixedly disposed at the output end of the motor 17, two bilateral discharge ports 18 are formed in the upper side wall of the combustion space 15, the discharge ports 18 are communicated with the combustion space 15, a third through hole is formed above the first through hole, a storage silo 20 is disposed in the third through hole, and the storage silo 20 is fixedly disposed on the upper end face of the boiler duct 22.

Referring to fig. 1-4, the adsorption mechanism a01 includes a second exhaust fan 44 fixedly disposed in the first space 25, the first space 25 has a butt sliding groove 30, the first space 25 has a sliding rotary filter plate 26, the rotary filter plate 26 has a second groove 32, the rotary filter plate 26 has a plurality of filter holes, the filter holes are communicated with the second groove 32, the right end face of the rotary filter plate 26 is fixedly disposed with a rotating rod 27, the outer circumferential side face of the rotating rod 27 is uniformly disposed with a plurality of fan blades 28, the outer circumferential side face of the rotating rod 27 is fixedly disposed with a butt connection rod 29, the butt connection rod 29 is abutted against the butt sliding groove 30, the boiler housing 10 has a falling groove 21, one end of the falling groove 21 is communicated with the second groove 32, and the other end of the falling groove 21 is communicated with the combustion space 15.

Referring to fig. 1-4, the scattering mechanism a02 includes a first slider 33 slidably disposed in the second slot 32, the left and right side walls of the first slider 33 are fixedly connected to a first fixing block 24 respectively between the left and right side walls of the upper through hole, the first slider 33 has a rotation space, the rear side wall of the rotation space has a first slot 31, the lower end surface of the first slot 31 has teeth, the rear side wall of the rotation space is rotatably disposed with a second rotating block 37, the second rotating block 37 is sleeved with a gear engaged with the teeth, the outer circumferential side surface of the second rotating block 37 has six first fixing blocks uniformly disposed along the circumferential direction of the second rotating block 37, the first fixing block has a third slot 38, a third fixing block 39 is rotatably disposed between the front and rear side walls of the third slot 38, the third fixing block 39 has a shift lever 40 fixedly disposed thereon, and a torsion spring is fixedly disposed between the shift lever 40 and the side wall of the third slot 38.

Referring to fig. 1 to 4, the first slider 33 has two bilaterally symmetrical spring slots 41, the upper side walls of the two spring slots 41 are respectively and fixedly provided with a telescopic rod 43, a third slider 45 is slidably disposed in each spring slot 41, the third slider 45 abuts against a shift lever 40, a spring 42 is connected between the upper end surface of each third slider 45 and the upper side wall of the corresponding spring slot 41, the first slider 33 has a first slot communicated with the spring slot 41, a connecting rod 46 is slidably disposed in the first slot, the upper end surface of the first slider 33 has two bilaterally symmetrical second slots, a first rotating block 34 is rotatably disposed in each second slot, a third slot is disposed in the side wall of each second slot, a second slider 36 is slidably disposed in each third slot, each second slider 36 is respectively and fixedly connected to the corresponding first rotating block 34, the upper outer circumferential side surfaces of the two first rotating blocks 34 are uniformly provided with a plurality of spring slots along the circumferential direction of the first rotating block 34 Second fixing block 35

The working principle of the high-efficiency purification treatment equipment for the condensable organic matters provided by the embodiment of the invention is as follows:

when the biomass gasification furnace is used, the motor 17 is started, corncobs, sawdust, rice husks and biological adsorbent are placed in the storage bin 20, coal is placed in the coal bin 19, the coal falls on the rotary block 16 through the discharge port 18 to prevent the coal from directly falling on the ash plate 14 to damage the ash plate 14, then the first exhaust fan 11 is started to convey air in the combustion space 15, the coal falling on the ash plate 14 is ignited at the moment, the second exhaust fan 44 is started to pour hot gas generated by combustion of the coal in the ash plate 14 into the boiler pipeline 22 for collection, at the moment, the air drives the fan blades 28 to rotate when passing through the fan blades 28, then the rotary filter plate 26 is driven to rotate through the rotary rod 27, the rotary rod 27 can also drive the abutting rod 29 to rotate, when the abutting rod 29 rotates, the rotary filter plate 26 is driven to rotate and simultaneously to reciprocate left and right when abutting against the chute 30, the left and right reciprocating motion of the rotary filter plate 26 can scrape tar on the side wall of the first space 25 into the combustion space 15, when the rotary filter plate 26 reciprocates left and right, the second rotating block 37 can be driven to move, the second rotating block 37 can drive a gear to move, the gear can rotate when being abutted against teeth, so that the driving lever 40 can be driven to rotate and further drive the third sliding block 45 to move upwards and further compress the telescopic rod 43 and the spring 42, the third sliding block 45 can drive the connecting rod 46 to move upwards and further drive the first rotating block 34 to rotate, when the first rotating block 34 rotates and drives the second sliding block 36 to be abutted against a third groove, the first rotating block 34 can be driven to rotate upwards and further drive the second fixing block 35 to rotate upwards and further disperse the biological adsorbent in the storage bin 20, the biological adsorbent can conveniently enter the second groove 32 from the storage bin 20, the rotary stirring of the second fixing block 35 can prevent the biological adsorbent from being supported with each other and causing the condition that the biological adsorbent cannot fall down, at this moment, the second groove 32 is filled with the biological adsorbent to adsorb tar in the air, the rotary filter plate 26 rotates to drive the adsorbent to turn over to make the adsorption effect better, and when the second groove 32 is butted with the falling groove 21, the biological adsorbent falls onto the furnace ash plate 14 along the falling groove 21, so that the biological adsorbent is combusted secondarily.

The above embodiments are only preferred embodiments of the present invention, and are not intended to limit the technical solutions of the present invention, so long as the technical solutions can be realized on the basis of the above embodiments without creative efforts, which should be regarded as falling within the protection scope of the patent of the present invention.

Claims

1. The utility model provides a high-efficient purification treatment equipment of condensable organic matter, includes boiler shell (10), its characterized in that: the boiler shell (10) is provided with a combustion space (15), the boiler shell (10) is provided with a first through hole, a boiler pipeline (22) is arranged in the first through hole, the boiler pipeline (22) is provided with a first space (25), and the boiler pipeline (22) is provided with an upper through hole;

an adsorption mechanism (A01), the adsorption mechanism (A01) being located in the first space (25), the adsorption mechanism (A01) being used for adsorbing tar at the outlet of the gasification furnace;

a breaking-up mechanism (A02), the breaking-up mechanism (A02) being located above the first space (25), the breaking-up mechanism (A02) being for breaking up the biosorbent.

2. The efficient purifying treatment equipment for the condensable organic compounds according to claim 1, characterized in that: the boiler shell (10) is further provided with two bilateral symmetry second through holes, the left side and the right side of the boiler shell (10) are respectively and fixedly provided with a first exhaust fan (11), one end of the two first exhaust fans (11) close to each other is fixedly provided with a first air suction pipeline (12), the first air suction pipeline (12) is positioned in the second through holes, a boiler ash plate (14) is fixedly arranged on the side wall of a combustion space (15), a motor groove is formed in the boiler shell (10), a motor (17) is fixedly arranged in the motor groove, an output end of the motor (17) is fixedly provided with a rotating block (16), two bilateral symmetry discharge holes (18) are formed in the upper side wall of the combustion space (15), the discharge holes (18) are communicated with the combustion space (15), and a third through hole is formed above the first through hole, a storage bin (20) is arranged in the third through hole, and the storage bin (20) is fixedly arranged on the upper end face of the boiler pipeline (22).

3. The efficient purifying treatment equipment for the condensable organic compounds according to claim 1, characterized in that: the adsorption mechanism (A01) comprises a second exhaust fan (44) fixedly arranged in the first space (25), a butt sliding groove (30) is formed in the first space (25), a rotary filter plate (26) is arranged in the first space (25) in a sliding mode, a second groove (32) is formed in the rotary filter plate (26), a plurality of filter holes are formed in the rotary filter plate (26) and communicated with the second groove (32), a rotary rod (27) is fixedly arranged on the right end face of the rotary filter plate (26), a plurality of fan blades (28) are uniformly arranged on the outer circumferential side face of the rotary rod (27), a butt connecting rod (29) is fixedly arranged on the outer circumferential side face of the rotary rod (27), the butt connecting rod (29) is abutted against the butt sliding groove (30), a lower drop groove (21) is formed in the boiler shell (10), one end of the lower drop groove (21) is communicated with the second groove (32), the other end of the falling groove (21) is communicated with the combustion space (15).

4. The efficient purifying treatment equipment for the condensable organic compounds according to claim 1, characterized in that: the scattering mechanism (A02) comprises a first sliding block (33) which is arranged in the second groove (32) in a sliding manner, the left side wall and the right side wall of the first sliding block (33) are respectively fixedly connected with a first fixed block (24) between the left side wall and the right side wall of the upper through hole, the first sliding block (33) is provided with a rotating space, the rear side wall of the rotating space is provided with a first groove (31), the lower end face of the first groove (31) is provided with teeth, the rear side wall of the rotating space is provided with a second rotating block (37) in a rotating manner, the second rotating block (37) is sleeved with a gear meshed with the teeth, the outer circumferential side face of the second rotating block (37) is uniformly provided with six first fixed blocks in the circumferential direction of the second rotating block (37), the first fixed block is provided with a third groove (38), and a third fixed block (39) is arranged between the front side wall and the rear side wall of the third groove (38) in a rotating manner, a shifting lever (40) is fixedly sleeved on the third fixing block (39), and a torsion spring is fixedly arranged between the shifting lever (40) and the side wall of the third groove (38).

5. The efficient purifying treatment equipment for the condensable organic compounds according to claim 1, characterized in that: the first sliding block (33) is provided with two bilaterally symmetrical spring grooves (41), the upper side walls of the two spring grooves (41) are respectively and fixedly provided with a telescopic rod (43), a third sliding block (45) is arranged in each spring groove (41) in a sliding manner, the third sliding block (45) is abutted against the shifting rod (40), the upper end face of each third sliding block (45) is respectively connected with the upper side wall of the corresponding spring groove (41) through a spring (42), the first sliding block (33) is provided with a first groove which is communicated with the spring grooves (41), a connecting rod (46) is arranged in the first groove in a sliding manner, the upper end face of the first sliding block (33) is provided with two bilaterally symmetrical second grooves, a first rotating block (34) is rotatably arranged in each second groove, and the side wall of each second groove is provided with a third groove, each third groove is internally provided with a second sliding block (36) in a sliding manner, each second sliding block (36) is fixedly connected with the corresponding first rotating block (34), and the outer circumferential side surfaces of the upper parts of the two first rotating blocks (34) are uniformly provided with a plurality of second fixing blocks (35) along the circumferential direction of the first rotating blocks (34).