CN110469854B

CN110469854B - Garbage pyrolysis gasification incineration treatment equipment

Info

Publication number: CN110469854B
Application number: CN201910782723.4A
Authority: CN
Inventors: 张国辉
Original assignee: Guangxi Xuancheng Environmental Technology Co Ltd
Current assignee: Guangxi Xuancheng Environmental Technology Co ltd
Priority date: 2019-08-23
Filing date: 2019-08-23
Publication date: 2020-12-11
Anticipated expiration: 2039-08-23
Also published as: CN110469854A

Abstract

The invention provides a garbage pyrolysis gasification incineration treatment device, which structurally comprises a feed port, a waste liquid treatment mechanism, a desulfurizing tower, an active carbon adsorption tank, a pyrolysis incineration chamber, a garbage leading-in pipeline and a waste liquid filter, wherein the lower end of the feed port is welded above the waste liquid filter, a small air pump increases the air pressure of a spiral groove on a rotor through high-pressure air filling, the moving speed of liquid in the spiral groove is increased, so that the collision speed of the liquid and the spiral groove is increased, the atomization effect of the liquid is better, when the atomized waste liquid enters a heating chamber, the temperature in the heating chamber is gradually increased due to the fact that a heat conduction plate is scalded under the action of a heat conduction ring, the atomized waste liquid is directly evaporated, the waste liquid generated by garbage can be effectively treated, the phenomena of bacteria breeding, worm growing, odor generation and the like are effectively prevented, and the acidity degree of the waste liquid is also required to be gradually increased due to long, thereby causing a problem of corrosion of the storage bucket.

Description

Garbage pyrolysis gasification incineration treatment equipment

Technical Field

The invention relates to the technical field of garbage pyrolysis and gasification, in particular to garbage pyrolysis, gasification and incineration treatment equipment.

Background

The garbage is a waste product which loses use value and cannot be utilized, and is an important link of material circulation. It is common practice to collect and send the waste to a landfill for landfill disposal or cracking incineration using an incinerator, and when cracking incineration is performed on the waste, it is usually necessary to discharge the waste liquid in the waste and then burn the waste liquid in an incineration chamber, however, the following disadvantages are encountered in the disposal of the waste liquid:

after discharging the waste liquid in the rubbish, if untimely handle the waste liquid, breed phenomenons such as bacterium, long worm, send the stink easily to pollute surrounding environment, and the waste liquid of placing for a long time can increase thereupon time, and the acidity degree also can increase gradually, thereby can will store the bucket and corrode.

Summary of the invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides garbage pyrolysis gasification incineration treatment equipment, which solves the problems that after waste liquid in garbage is discharged, if the waste liquid is not treated timely, bacteria and pests are easy to breed, odor is generated, peripheral environment is polluted, the waste liquid placed for a long time is increased along with the increase of time, the acidity degree is gradually increased, and a storage barrel is corroded.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: a garbage pyrolysis gasification incineration treatment device structurally comprises a feed port, a waste liquid treatment mechanism, a desulfurizing tower, an activated carbon adsorption tank, a cracking incineration chamber, a garbage leading-in pipeline and a waste liquid filter, wherein the lower end of the feed port is welded above the waste liquid filter, the upper right side of the waste liquid treatment mechanism is welded with the left side of the waste liquid filter, the waste liquid treatment mechanism is communicated with the desulfurizing tower through a guide pipe, the desulfurizing tower is communicated with the activated carbon adsorption tank through the guide pipe, the left side of the garbage leading-in pipeline is embedded and installed on the right side of the waste liquid filter, the lower end of the garbage leading-in pipeline penetrates through the upper right end of the cracking incineration chamber and is connected with the upper right end of the cracking incineration chamber through electric welding, the desulfurizing tower is communicated with the cracking incineration chamber, the waste liquid treatment mechanism comprises a one-way circulation mechanism, an arc-, the left lower end of the arc-shaped connecting pipe is fixedly connected with the upper end of the straight-through pipe, and the straight-through pipe is embedded in the upper portion of the waste liquid treatment box and is connected with the waste liquid treatment box through electric welding.

Preferably, the one-way circulation mechanism includes fixed cardboard, buffer spring, head, seal block, circulation room, fixed cardboard is installed and is connected through the electric welding inside the circulation room, fixed cardboard passes through buffer spring and head and welds mutually, the head imbeds on the seal block centre bore, the seal block is integrative casting with the circulation room and forms, the head has the tip to be the arc structure.

Preferably, the waste liquid treatment box includes small-size water pump, control box, heat conduction ring connecting rod, heating chamber, heat-conducting plate, heat conduction ring, protective housing, waste liquid apotheca, atomizing nozzle, small-size water pump and atomizing nozzle communicate each other, the heat conduction ring passes through the heat conduction ring connecting rod and is connected with control box electricity, the heat conduction ring is installed in the heat conduction plate outside, heating chamber and protective housing structure as an organic whole, protective housing and waste liquid apotheca structure as an organic whole, atomizing nozzle installs inside the waste liquid apotheca, the inside honeycomb duct that is equipped with of waste liquid apotheca.

Preferably, the atomizing nozzle includes small-size air pump, vaporizer, nozzle casing, rotor, vortex fan, feed liquor hole, small-size air pump is installed in nozzle casing outer end, vaporizer and nozzle casing structure as an organic whole, the nozzle embedding is installed in nozzle casing below, rotor upper end and vortex fan lower extreme fixed connection, nozzle casing and feed liquor hole upper end are integrative casting shaping, nozzle casing side is equipped with the inlet port.

As preferred, the waste liquid filter includes first filter screen, filter screen frame, water conservancy diversion seat, dustcoat, second filter screen, first filter screen is installed inside the dustcoat, first filter screen is located second filter screen top, filter screen frame is installed in water conservancy diversion seat left side and is connected through the electric welding, the seat of flowing is the integrated casting shaping with the dustcoat, second filter screen fixed mounting is inside the dustcoat, filter screen frame is 105 degrees angles with the dustcoat.

Preferably, the fixing clamping plate is provided with a through hole which is of a circular structure.

(III) advantageous effects

The invention provides a garbage pyrolysis gasification incineration treatment device. The method has the following beneficial effects:

1. according to the invention, the atomization nozzle is arranged, the waste liquid is extracted by the small water pump, the waste liquid is guided into the liquid inlet hole, the waste liquid enters the nozzle shell through the guide hole at the lower end of the liquid inlet hole, the vortex fan is pushed by the waste liquid under the action of impact force, so that the vortex fan rotates to drive the rotor to rotate, the atomization effect of the waste liquid can be realized, meanwhile, the air pressure of the spiral groove on the rotor is increased by the small air pump through high-pressure air entrainment, the movement speed of the liquid in the spiral groove is increased, the collision speed of the liquid and the spiral groove is increased, and the atomization effect of the liquid is better.

2. According to the invention, by arranging the waste liquid treatment box, when atomized waste liquid enters the heating chamber, the temperature in the heating chamber is gradually raised due to the fact that the heat conduction plate is scalded under the action of the heat conduction ring, so that the atomized waste liquid is directly evaporated by the temperature in the heating chamber to generate waste gas, the waste liquid generated by garbage can be effectively treated, the phenomena of bacteria breeding, insect growth, odor generation and the like are effectively prevented, and meanwhile, the problem that the acidity degree of the waste liquid is gradually increased due to long-time storage, and the storage barrel is corroded is solved.

Drawings

FIG. 1 is a schematic structural view of a waste pyrolysis, gasification and incineration disposal apparatus according to the present invention;

FIG. 2 is a schematic front view of a waste liquid filter according to the present invention;

FIG. 3 is a schematic front view of the waste liquid treatment apparatus according to the present invention;

FIG. 4 is a front view of the one-way flow mechanism of the present invention;

FIG. 5 is a front view of the waste liquid treatment tank according to the present invention;

FIG. 6 is a front view of an atomizing nozzle according to the present invention;

fig. 7 is a schematic perspective view of a heat conductive ring according to the present invention.

In the figure: a feed hole-1, a waste liquid treatment mechanism-2, a desulfurizing tower-3, an activated carbon adsorption tank-4, a cracking incineration chamber-5, a garbage leading-in pipeline-6, a waste liquid filter-7, a one-way circulation mechanism-21, an arc connecting pipe-22, a straight-through pipe-23, a waste liquid treatment box-24, a fixed clamping plate-211, a buffer spring-212, an end enclosure-213, an end enclosure-214, a circulation chamber-215, a small water pump-241, a control cabinet-242, a heat conduction ring connecting rod-243, a heating chamber-244, a heat conduction plate-245, a heat conduction ring-246, a protective shell-247, a waste liquid storage chamber-248, an atomizing nozzle-249, a small air pump-491, a gasification chamber-492, a nozzle-493, a nozzle cabinet-494, an, The device comprises a rotor-495, a vortex fan-496, a liquid inlet hole-497, a first filter screen-71, a filter screen frame-72, a flow guide seat-73, an outer cover-74 and a second filter screen-75.

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, an embodiment of the present invention provides a waste pyrolysis gasification incineration treatment apparatus, which includes a feed port 1, a waste liquid treatment mechanism 2, a desulfurization tower 3, an activated carbon adsorption tank 4, a pyrolysis incineration chamber 5, a waste introduction pipe 6, and a waste liquid filter 7, wherein a lower end of the feed port 1 is welded above the waste liquid filter 7, an upper right side of the waste liquid treatment mechanism 2 is welded to a left side of the waste liquid filter 7, the waste liquid treatment mechanism 2 and the desulfurization tower 3 are communicated with each other through a conduit, the desulfurization tower 3 is communicated with the activated carbon adsorption tank 4 through a conduit, a left side of the waste introduction pipe 6 is embedded and installed on a right side of the waste liquid filter 7, a lower end of the waste introduction pipe 6 penetrates through a right upper end of the pyrolysis incineration chamber 5 and is connected with each other through an electric welding, the desulfurization tower 3 and the pyrolysis incineration chamber 5 are communicated with each other, the waste, Arc connecting pipe 22, through pipe 23, waste liquid treatment case 24, one-way circulation mechanism 21 left side and arc connecting pipe 22 right side mechanical connection, arc connecting pipe 22 left side lower extreme and through pipe 23 upper end fixed connection, through pipe 23 embedding is installed in waste liquid treatment case 24 top and is connected through the electric welding.

Wherein, one-way circulation mechanism 21 includes fixed cardboard 211, buffer spring 212, head 213, a seal block 214, circulation room 215, fixed cardboard 211 is installed and is connected through the electric welding inside circulation room 215, fixed cardboard 211 passes through buffer spring 212 and welds mutually with head 213, head 213 imbeds on a seal block 214 centre bore, a seal block 214 is integrative casting shaping with circulation room 215, head 213 has the tip to be the arc structure for head 213 when embedding a seal block 214 centre bore, can not be because of the problem of water caltrop, and when causing head 213 to carry out the return under buffer spring's 212 effect, head 213 takes place the slope, and there is the gap in unable effectual embedding seal block 214 centre.

Wherein the waste liquid treatment box 24 comprises a small-sized water pump 241, a control cabinet 242, a heat conduction ring connecting rod 243, a heating chamber 244, a heat conduction plate 245, a heat conduction ring 246, a protective casing 247, a waste liquid storage chamber 248 and an atomizing nozzle 249, the small water pump 241 is communicated with the atomizing nozzle 249, the heat conduction ring 246 is electrically connected with the control cabinet 242 through a heat conduction ring connecting rod 243, the heat-conducting ring 246 is installed outside the heat-conducting plate 245, the heating chamber 244 and the protective casing 247 are integrated, the protective shell 247 and the waste liquid storage chamber 248 are integrated, the atomizing nozzle 249 is installed inside the waste liquid storage chamber 248, a guide pipe is arranged inside the waste liquid storage chamber 248 for guiding the waste liquid, thereby effectively avoiding the problem that the atomizing nozzle 249 is damaged due to the fact that the waste liquid directly impacts the atomizing nozzle 249 when entering the waste liquid storage chamber 248.

Wherein, the atomizing nozzle 249 comprises a small air pump 491, a gasification chamber 492, a nozzle 493, a nozzle casing 494, a rotor 495, a vortex fan 496 and a liquid inlet hole 497, the small air pump 491 is installed at the outer end of the nozzle casing 494, the gasification chamber 492 and the nozzle casing 494 are integrated, the nozzle 493 is embedded and installed below the nozzle casing 494, the upper end of the rotor 495 is fixedly connected with the lower end of the vortex fan 496, the nozzle casing 494 and the upper end of the liquid inlet hole 497 are integrally cast, an air inlet hole is arranged at the side end of the nozzle casing 494, when waste liquid enters the liquid inlet hole 497 under the driving of the small water pump 241, the aperture of the upper end of the liquid inlet hole 497 is larger than that of the lower end, so that when the waste liquid goes out from the lower end hole of the liquid inlet hole 497, the pressure is increased, when the waste liquid goes out from the lower end hole diameter, the impact force on the, make the waste liquid can realize atomizing effect, small-size air pump 491 makes the atmospheric pressure of the helicla flute on the rotor 495 increase through high-pressure air entrainment simultaneously, has improved the velocity of motion of liquid in the helicla flute to increased the collision velocity of liquid and helicla flute, made the atomization effect of liquid better, then spout in the helicla flute after the liquid atomization, spout to nozzle 493 through vaporizer 492, being squirted by nozzle 493.

Wherein, the waste liquid filter 7 comprises a first filter screen 71, a filter screen frame 72, a diversion seat 73, an outer cover 74 and a second filter screen 75, the first filter screen 71 is installed inside the outer cover 74, the first filter screen 71 is located above the second filter screen 75, the filter screen frame 72 is installed on the left side of the diversion seat 73 and is connected with the outer cover 74 through electric welding, the diversion seat 73 and the outer cover 74 are cast into a whole, the second filter screen 75 is fixedly installed inside the outer cover 74, the filter screen frame 72 and the outer cover 74 form a 105-degree angle, when garbage enters from the feed port 1, waste liquid on the garbage is filtered through the first filter screen 71, then the waste liquid falls onto the second filter screen 75 from the first filter screen 71 to be filtered again, after the waste liquid in the garbage is filtered through the second filter screen 75, the waste liquid in the garbage is filtered again by the filter screen frame 72, then on leading-in pipeline 6 of rubbish guide rubbish after will filtering through water conservancy diversion seat 73, through filtering layer upon layer, filter out the waste liquid in the rubbish, avoid the waste liquid to enter into inside the pyrolysis incineration chamber 5.

The fixing clamping plate 211 is provided with a through hole which is of a circular structure, the through hole above the fixing clamping plate is used for guiding waste liquid, and the support plate can support the buffer spring 212.

The specific working process is as follows:

when garbage is treated, firstly, the garbage is poured into the interior of the equipment through the feed port 1, after entering the feed port 1, the garbage drops onto the waste liquid filter 7, waste liquid on the garbage is firstly filtered through the first filter screen 71, then the garbage drops onto the second filter screen 75 from the first filter screen 71 and is filtered again, after the waste liquid in the garbage is filtered through the second filter screen 75, the waste liquid in the garbage is filtered again through the filter screen frame 72, so that waste impurities and the waste liquid of the garbage are separated from each other, the waste impurities are guided into the pyrolysis incineration chamber 5 through the garbage guide-in pipeline 6 and are subjected to pyrolysis incineration, generated gas is guided into the desulfurization tower 3 through the guide pipe to be purified, and then is guided into the activated carbon adsorption tank 4 through the desulfurization tower 3 to treat activated carbon such as dust, and the waste liquid is guided into the one-way circulation mechanism 21 through the inclined slope on the left side of the guide seat 73, the end socket 213 is pushed open by the driving force of the waste liquid to squeeze the buffer spring 212 to contract inwards, so that the end socket 213 moves leftwards, the waste liquid is led into the central hole of the sealing block 214, flows to the straight-through pipe 23 through the circulation chamber 215, is led into the waste liquid storage chamber 248 through the straight-through pipe 23, the small water pump 241, the small air pump 491 and the heat conduction ring 246 are started simultaneously under the control of the control cabinet 242, the waste liquid is pumped by the small water pump 241, the waste liquid is led into the liquid inlet hole 497, the waste liquid enters the nozzle housing 494 through the guide hole at the lower end of the liquid inlet hole 497, under the action of the impact force, the waste liquid pushes the scroll fan 496 to rotate the scroll fan 496 to drive the rotor 495 to rotate, the atomization effect of the waste liquid can be realized, meanwhile, the air pressure of the spiral groove on the rotor 495 is increased by the high-pressure air, thereby the collision velocity of liquid and spiral groove has been increased, cause the atomization effect of liquid better, then spout from the spiral groove after the liquid atomization, spout to nozzle 493 through vaporizer 492, spout by nozzle 493, when atomizing waste liquid enters into heating chamber 244, because heat-conducting plate 245 is scalded under the effect of heat-conducting ring 246, will make the temperature in heating chamber 244 rise gradually, make the waste liquid that atomizes into directly evaporate by the inside temperature of heating chamber 244, produce waste gas, waste gas passes through the pipe and carries in desulfurizing tower 3, handle waste gas through desulfurizing tower 3, carry waste gas to active carbon adsorption tank 4 and carry out impurity processing such as dust, the gas after will handling is discharged at last.

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

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

Claims

1. The utility model provides a waste pyrolysis gasification incineration treatment equipment, its structure includes feed port (1), waste liquid treatment mechanism (2), desulfurizing tower (3), activated carbon adsorption jar (4), pyrolysis incineration chamber (5), rubbish leading-in pipeline (6), waste liquid filter (7), feed port (1) lower extreme welds in waste liquid filter (7) top, the right side welds with waste liquid filter (7) left side on waste liquid treatment mechanism (2), waste liquid treatment mechanism (2) and desulfurizing tower (3) communicate each other through the pipe, desulfurizing tower (3) communicate each other through pipe and activated carbon adsorption jar (4), rubbish leading-in pipeline (6) left side embedding is installed in waste liquid filter (7) right side, rubbish leading-in pipeline (6) lower extreme runs through in pyrolysis incineration chamber (5) upper right end and is connected through the electric welding, desulfurizing tower (3) and pyrolysis incineration chamber (5) communicate each other, the method is characterized in that:

the waste liquid treatment mechanism (2) comprises a one-way circulation mechanism (21), an arc-shaped connecting pipe (22), a straight-through pipe (23) and a waste liquid treatment box (24), the left side of the one-way circulation mechanism (21) is mechanically connected with the right side of the arc-shaped connecting pipe (22), the left lower end of the arc-shaped connecting pipe (22) is fixedly connected with the upper end of the straight-through pipe (23), and the straight-through pipe (23) is embedded and installed above the waste liquid treatment box (24);

the one-way circulation mechanism (21) comprises a fixed clamping plate (211), a buffer spring (212), a seal head (213), a seal block (214) and a circulation chamber (215), wherein the fixed clamping plate (211) is arranged inside the circulation chamber (215) and connected through electric welding, and the fixed clamping plate (211) is welded with the seal head (213) through the buffer spring (212);

the waste liquid treatment box (24) comprises a small-sized water pump (241), a control cabinet (242), a heat conduction ring connecting rod (243), a heating chamber (244), a heat conduction plate (245), a heat conduction ring (246), a protective shell (247), a waste liquid storage chamber (248) and an atomizing nozzle (249), wherein the small-sized water pump (241) is communicated with the atomizing nozzle (249), the heat conduction ring (246) is electrically connected with the control cabinet (242) through the heat conduction ring connecting rod (243), the heat conduction ring (246) is installed on the outer side of the heat conduction plate (245), the heating chamber (244) and the protective shell (247) are of an integrated structure, the protective shell (247) and the waste liquid storage chamber (248) are of an integrated structure, and the atomizing nozzle (249) is installed inside the waste liquid storage chamber (248);

the atomizing nozzle (249) comprises a small air pump (491), a gasification chamber (492), a nozzle (493), a nozzle casing (494), a rotor (495), a vortex fan (496) and a liquid inlet hole (497), wherein the small air pump (491) is installed at the outer end of the nozzle casing (494), the gasification chamber (492) and the nozzle casing (494) are of an integrated structure, the nozzle (493) is embedded and installed at the inner lower part of the nozzle casing (494), the upper end of the rotor (495) is fixedly connected with the lower end of the vortex fan (496), and the nozzle casing (494) and the upper end of the liquid inlet hole (497) are integrally cast and molded;

waste liquid filter (7) include first filter screen (71), filter screen frame (72), water conservancy diversion seat (73), dustcoat (74), second filter screen (75), install in dustcoat (74) inside first filter screen (71), first filter screen (71) are located second filter screen (75) top, filter screen frame (72) are installed in water conservancy diversion seat (73) left side and are connected through the electric welding, water conservancy diversion seat (73) and dustcoat (74) are integrated casting, second filter screen (75) fixed mounting is inside dustcoat (74), be equipped with the through-hole on fixed cardboard (211).

2. The apparatus for pyrolysis, gasification and incineration of garbage according to claim 1, wherein: the seal head (213) is embedded in a central hole of the seal block (214), and the seal block (214) and the circulation chamber (215) are integrally cast and formed.