CN115569473A

CN115569473A - Based on inertia slows down three gas fusion clarification plant of type organic waste gas

Info

Publication number: CN115569473A
Application number: CN202211171276.7A
Authority: CN
Inventors: 章骥; 温建军
Original assignee: Jiangsu Ding Ji Environmental Technology Co ltd
Current assignee: Jiangsu Ding Ji Environmental Technology Co ltd
Priority date: 2022-09-26
Filing date: 2022-09-26
Publication date: 2023-01-06

Abstract

The invention discloses three-gas fusion type purification equipment based on inertia retarding type organic waste gas, which comprises a bottom plate, a box body, a cushion block, an exhaust box, an inertia retarding type centrifugal flow type buoy gas leakage mechanism, a three-gas horizontal combined type embedded adsorption type pest removing mechanism, an adsorbed water wave water removing mechanism and a kinetic energy integration mechanism, wherein the box body is arranged on the upper wall of the bottom plate, the box body is arranged in a through mode, the cushion block is symmetrically arranged on the upper wall of the box body, and the exhaust box is arranged on the upper wall of the cushion block. The invention belongs to the technical field of organic waste gas purification, and particularly relates to three-gas fusion type purification equipment for organic waste gas based on inertia retarding; the invention provides three-gas fusion type purification equipment for organic waste gas based on inertia retarding, which is used for gradually deeply purifying and mixing waste gas, completing secondary degradation of harmful substances in the waste gas through a three-gas convection structure, and facilitating the discharge of medicament solution contained in the waste gas after drying and recycling through the arranged circulating elimination structure.

Description

Based on inertia slows down three gas fusion clarification plant of type organic waste gas

Technical Field

The invention belongs to the technical field of organic waste gas purification, and particularly relates to three-gas fusion type purification equipment for organic waste gas based on inertia retarding.

Background

In life, the damage of air quality to human health is the most fatal, wherein the most common particulate pollution waste gas and nitrogen oxide waste gas belong to the major pollution sources, along with the development and progress of industrial science and technology, the generated organic waste gas slowly invades the air on which people live, and the organic waste gas is a volatile gas and becomes another major pollution source next to the particulate pollution waste gas and the nitrogen oxide waste gas.

The three-gas fusion type purification equipment based on inertia retarding type organic waste gas at present has the following problems:

1. most of traditional waste gas purification equipment adopts a filter screen and filter cotton to filter particulate matters contained in waste gas, but the filter screen and the filter cotton are easy to block after being used for a long time, so that the particulate matter treatment efficiency of the waste gas purification equipment is reduced;

2. the existing waste gas purification equipment can not carry out uniform and effective degradation and purification treatment on harmful substances contained in waste gas, so that the purification efficiency of the waste gas is low and the requirement of environmental protection emission is difficult to meet;

3. energy resources generated in the waste gas treatment cannot be recycled, so that the use efficiency of waste gas purification equipment and the waste of resources are greatly reduced.

Disclosure of Invention

In view of the above circumstances, in order to overcome the defects of the prior art, the present scheme provides a three-gas fusion purification device based on inertia retarding type organic waste gas, which aims at the problem that a filter screen and filter cotton filter particles contained in waste gas for a long time to cause blockage, creatively combines a centrifugal rotation structure, an inertia stopping phenomenon and a magnetic induction retarding adsorption effect, and is applied to the technical field of organic waste gas purification.

Meanwhile, under the action of gas-liquid separation of the exhaust valve, the device realizes secondary degradation treatment on organic waste gas by the aid of the three-gas horizontal combined embedded adsorption type pest removal mechanism, finishes fused degradation on the organic waste gas under double forces of jet flow and negative ions, removes medicament solution adsorbed in absorbent cotton under the interference of the absorbent air wave dehydration mechanism from the outside after the waste gas is dried by the aid of the absorbent cotton, and accordingly keeps the water absorption efficiency of the absorbent cotton.

The invention provides the three-gas fusion type purification equipment for the organic waste gas, which gradually and deeply purifies and mixes the waste gas, completes secondary degradation of harmful substances in the waste gas through a three-gas convection structure, and is convenient to discharge medicament solution contained in the waste gas after drying and recycling through the arranged circulating rejection structure.

The technical scheme adopted by the scheme is as follows: the scheme provides a three gas fusion clarification plant based on inertia slows down type organic waste gas, including bottom plate, box, cushion, exhaust box, inertia slow down type centrifugal flow formula flotation pontoon gas leakage mechanism, three gas level combination formula embedding absorption type pest control mechanism, absorption water wave mechanism and kinetic energy integrated mechanism, the bottom plate upper wall is located to the box, and the box is for lining up the setting, the box upper wall is located to the cushion symmetry, the cushion upper wall is located to the exhaust box, inertia slow down type centrifugal flow formula flotation pontoon gas leakage mechanism locates the box inner wall, three gas level combination formula embedding absorption type pest control mechanism locates the box lateral wall, absorption water wave mechanism locates the exhaust box lateral wall, kinetic energy integrated mechanism locates the box lateral wall, inertia slows down type centrifugal flow formula flotation pontoon gas leakage mechanism and includes double-shaft rotary mechanism, centrifugal purification mechanism, block and slow down mechanism and one-way mixing mechanism, double-shaft rotary mechanism locates the box upper wall, centrifugal purification mechanism locates the box inner wall, block and slow down the mechanism inner wall that centrifugal purification mechanism located one side was blocked to the centrifugal purification mechanism.

As a further optimization of the scheme, the double-shaft rotating mechanism comprises a motor groove, a gear groove, a rotating groove, a double-shaft motor and a driving gear, wherein the motor groove is formed in the upper wall of the box body, the motor groove is arranged in a through manner, the gear grooves are symmetrically formed in the upper wall of the box body on two sides of the motor groove, the gear groove is arranged in a through manner, the rotating groove is formed in the inner wall of the box body, the rotating groove is a cavity with an opening at one end, the double-shaft motor is arranged in the motor groove, power ends on two sides of the double-shaft motor are arranged in the gear groove in a through manner, the driving gear is arranged at power ends on two sides of the double-shaft motor in a symmetrical manner, and the driving gear is arranged in the gear groove; the centrifugal purification mechanism comprises a rotary table, support pipes, rollers and annular racks, wherein the support pipes are respectively arranged on the inner wall of the box body and the inner wall of the rotating groove in a penetrating manner, the rotary table is rotatably arranged on the support pipes, the rotary tables are oppositely arranged, the rollers are arranged between the support pipes, the annular racks are symmetrically arranged on the outer sides of the rollers, the annular racks are arranged below the driving gears, and the annular racks are meshed with the driving gears; the blocking retarding mechanism comprises an annular collecting box, a feed opening, a blocking plate and retarding openings, wherein the annular collecting box is arranged on the outer side of one end, away from the rotating groove, of the roller, the annular collecting box is a cavity with an opening at one end, the feed opening is arranged on the side wall of one end, close to the annular collecting box, of the roller, the blocking plate is arranged on the inner wall of one end, close to the feed opening, of the roller, and multiple groups of the retarding openings are arranged on the side wall of the blocking plate; the unidirectional mixing mechanism comprises ten plates, unidirectional gas outlet valves, iron rods, a dust removal coil and a mixing cavity, wherein the ten plates are arranged on the inner wall of one end, away from the feed opening, of the blocking plate, multiple groups of the unidirectional gas outlet valves are arranged on the side walls of the ten plates, the iron rods are arranged between the ten plates and the blocking plate, the dust removal coil is arranged on the inner wall of the roller between the ten plates and the blocking plate, the dust removal coil is arranged on the outer side of the iron rods, and the mixing cavity is arranged at one end, away from the feed opening, of the roller; the double-shaft motor drives the driving gear to rotate through a power end, the driving gear is meshed with the annular rack, the driving gear drives the roller to rotate through the annular rack, the roller rotates around the supporting pipe through the rotary disc, waste gas enters the interior of the roller through the supporting pipe at one end, close to one end of the annular collecting box, of the box body, the waste gas collides with the blocking plate through impact force, dust particles in the waste gas lose flowing inertia due to blocking of the blocking plate and then fall into the interior of the roller, the roller rotates to drive the particles to do centrifugal motion, the dust particles enter the interior of the annular collecting box through the feed opening in the rotating process due to gravity factors, the waste gas continues flowing towards the interior of the roller, the flow speed of the collided waste gas is reduced, the waste gas enters the middle of the roller through the slow opening, at the moment, the iron rod is electrified, a magnetic field is generated between the dust removal coil and the iron rod, the magnetic field adsorbs smaller dust in the waste gas through magnetic force, a waste gas purification medicament is stored in the mixing cavity, the waste gas after the waste gas is shunted by the magnetic field, the waste gas is shunted into the mixing cavity through the one-way air outlet valve, the waste gas and the waste gas is mixed with the medicament in the mixing cavity, the waste gas is fully mixed with the medicament in the rotation of the waste gas, and the harmful substances in the waste gas, the waste gas are adsorbed by the rotation of the medicament in the waste gas.

Preferably, the three-air horizontal combined embedded adsorption type pest eliminating mechanism comprises a pest eliminating filtering mechanism, an atomizing and adsorbing mechanism and an air separating and mixing mechanism, the pest eliminating filtering mechanism is arranged inside the exhaust box, the atomizing and adsorbing mechanism is arranged outside the roller, the air separating and mixing mechanism is arranged on one side, away from the annular collecting box, of the box body, the pest eliminating filtering mechanism comprises a filtering box, an exhaust port, absorbent cotton and an active carbon adsorption layer, the filtering box is arranged on the inner wall of one end of the exhaust box, the filtering box is a cavity with openings at two ends, the exhaust port is arranged on one side, close to the annular collecting box, of the exhaust box, the absorbent cotton is arranged on the inner wall of the filtering box, and the active carbon adsorption layer is arranged on the inner wall of the exhaust box, close to one end of the exhaust port, of the exhaust box; the atomizing adsorption mechanism comprises an atomizing motor, an atomizing pipe, a water mist pipe, a circulating box and a water outlet, the circulating box is arranged on the outer side of one end, away from the annular collecting box, of the roller, the upper wall and the bottom wall of the circulating box are fixedly connected with the upper wall and the bottom wall of the box respectively, the circulating box is a cavity with an opening at one end, the roller is rotatably arranged in the circulating box in a penetrating manner, the water outlet is arranged on the side wall of one end, close to the circulating box, of the roller, the atomizing motor is arranged on the side wall of the circulating box, the atomizing pipe is communicated between the circulating box and the power input end of the atomizing motor, and the water mist pipe is communicated between the exhaust box and the power output end of the atomizing motor; the air-ion mixing mechanism comprises an anion generator, a power pipe, an exhaust valve, a purification pipe and a pipeline clamp, wherein the exhaust valve is communicated with the side wall of a supporting pipe arranged at one end, close to the circulating box, of the box body; the medicine in the mixing cavity is mixed with waste gas and discharged into the purifying tube through the exhaust valve, the roller rotates to make the medicine in the mixing cavity flow, when the exhaust valve is in exhaust state, the float pulls down one end of the lever due to gravity action, at this time, the lever is in inclined state, a gap appears at the contact part of the lever and the exhaust hole, the gas is discharged from the exhaust hole through the gap, along with the discharge of air, the water level rises, the float floats upwards under the buoyancy action of water, the exhaust hole is pressed gradually by the sealing end surface on the lever until the whole exhaust hole is completely blocked, the exhaust valve is completely in closed state at this time, therefore, the medicine in the mixing cavity can not flow out, inside exhaust case was gone into through the purge tube in gaseous exhaust hole that passes through discharge valve, at this moment, atomizing motor passes through the inside medicament of atomizing pipe extraction circulation incasement, the medicament enters into circulation incasement portion through the mouth of a river down, inside the medicament discharged into the exhaust case through the water smoke pipe after atomizing motor atomizing, purge tube and water smoke pipe level set up, make waste gas and atomizing back medicament offset mixing, anion generator carries the anion through the power end inside the exhaust case, make anion and waste gas combine together, anion and the medicament after the atomizing carry out abundant absorption purification to waste gas, waste gas after the purification loops through inside the exhaust case of gas vent discharge after absorbent cotton and active carbon adsorption layer filter.

The water removing mechanism comprises a pulse generator, a pulse flow dividing pipe and a circulation flow dividing pipe, wherein the pulse generator is arranged on the side wall of the exhaust box, the pulse flow dividing pipe is communicated between the exhaust box and the power output end of the pulse generator, and the circulation flow dividing pipe penetrates through the box body and the exhaust box and is communicated between the filter box and the circulation box; pulse generator carries the pulse wave through the pulse shunt tubes to the rose box inside to the cotton that absorbs water impact for absorbent medicament on the cotton that absorbs water is impacted rose box bottom, and the medicament flows back inside the circulation case through the circulation shunt tubes.

The kinetic energy integration mechanism comprises a power generation coil, a magnet, a rectifier and a storage battery, wherein the power generation coil is arranged on the inner wall of the rotating groove, the magnet is arranged on the side wall of one end, close to the rotating groove, of the roller, the power generation coil is arranged on the outer side of the magnet, the rectifier is arranged on the side wall of the box body below the exhaust valve, and the storage battery is arranged on the side wall of the box body on one side of the rectifier; the roller drives the magnet to rotate, and the magnet rotates to cut magnetic induction lines inside the power generation coil, so that the power generation coil generates current.

Preferably, the generating coil is electrically connected with a rectifier, and the rectifier is electrically connected with the storage battery.

Furthermore, the stay tube intercommunication that discharge valve one end was kept away from to the roller is equipped with the connector of admitting air, and the connector of admitting air is used for external waste gas line.

Still further, the lateral wall of the box body is provided with a controller.

Furthermore, the controller is respectively electrically connected with the double-shaft motor, the iron rod, the atomizing motor, the negative ion generator and the pulse generator.

The beneficial effect who adopts above-mentioned structure this scheme to gain as follows: this scheme provides one kind can be both fast and slow, layer upon layer to in the waste gas harmful substance peel off based on inertia slow down type organic waste gas three gas fusion clarification plant's beneficial effect as follows:

1. the waste gas is blocked and intercepted by the inertial flow of the waste gas, so that larger particles in the waste gas are centrifugally collected under the action of losing the inertial flow of the gas, the waste gas collides with the blocking plate through impact force, dust particles in the waste gas lose the inertia of the flow due to the blocking of the blocking plate and fall into the roller, the roller rotates to drive the particles to do centrifugal motion, and the dust particles enter the annular collecting box through the feed opening for storage due to gravity factors in the rotating process;

2. according to the Bernoulli effect principle, when gas flows from a small space to a large space, the flow speed is reduced, and the reduction of the gas flow speed is increased under the interception of the blocking plate, so that when the waste gas flows through a magnetic field, the magnetic field can adsorb smaller dust in the waste gas, and the phenomenon that the waste gas flows at an excessive speed to fall off from the magnetic field in the dust is avoided;

3. the waste gas enters the mixing cavity after dust is filtered and is mixed with the medicament by adopting the one-way conduction capability of the one-way air outlet valve, meanwhile, the waste gas is fully contacted with the medicament by the continuous rotation of the roller, and the medicament adsorbs and neutralizes harmful substances contained in the waste gas;

4. under the action of the exhaust valve, the combination of the rotation of the roller enables the medicament inside the mixing cavity to flow continuously, so that the waste gas and the medicament are easy to separate perfectly, and the secondary treatment of the waste gas is facilitated;

5. creatively combines the correlation effect with the multipurpose principle, and carries out secondary purification treatment on the waste gas through the three-gas horizontal combined embedded adsorption type harm removing mechanism, so that the waste gas is subjected to harmless treatment under double forces;

6. the waste gas adsorbing the medicament is dried and discharged through the arranged absorbent cotton, so that the purified waste gas is prevented from carrying the purifying medicament and flowing into the external environment;

7. in order to avoid the problem that the medicament cannot be recycled when the medicament is used for treating waste gas, the medicament solution adsorbed on the absorbent cotton is cleaned in a gas wave mode through the arranged water-absorbing gas wave dehydration mechanism, so that the medicament flows back to the inside of the circulating box through the circulating shunt pipe;

8. the kinetic energy generated by the rotation of the roller is utilized, and through the arranged kinetic energy integration mechanism, under the action of the roller driving the magnet to rotate, the magnet cuts magnetic induction lines in the power generation coil, so that the power generation coil generates current, and the current is integrated through the rectifier and then is conveyed into the storage battery for storage;

9. under the condition of no large-scale dust removal equipment, an inertia retarding structure is combined with centrifugal motion to complete the purification treatment of dust contained in the waste gas;

10, under the condition of no intervention of a stirring and mixing mechanism, secondary mixing and purification of the waste gas is completed through the separation effect of the exhaust valve and the gas jet effect.

Drawings

Fig. 1 is a schematic overall structure diagram of an inertia-retarding-type-based organic waste gas three-gas fusion type purification device provided by the scheme;

fig. 2 is a first perspective view of a purification device based on inertia retarding type organic waste gas three-gas fusion, which is provided by the scheme;

fig. 3 is a second perspective view of the inertia-retarding-type-based organic waste gas three-gas fusion type purification device provided by the present scheme;

fig. 4 is an exploded view of a purification device based on inertia retarding organic waste gas three-gas fusion in the scheme;

fig. 5 is a front view of a purification device based on inertia retarding type organic waste gas three-gas fusion;

fig. 6 is a rear view of a three-gas fusion type purification device based on inertia retarding type organic waste gas according to the scheme;

fig. 7 is a left side view of the purification device based on inertia retarding type organic waste gas three-gas fusion provided by the scheme;

fig. 8 is a right side view of the purification device based on inertia retarding type organic waste gas three-gas fusion proposed by the scheme;

fig. 9 is a top view of a purification device based on inertia retarding organic waste gas three-gas fusion proposed by the scheme;

FIG. 10 isbase:Sub>A partial sectional view A-A of FIG. 9;

fig. 11 is a schematic structural diagram of a tank body of an organic waste gas three-gas fusion type purification device based on inertia retarding type provided by the scheme;

FIG. 12 is a schematic structural diagram of a roller of a purification device based on inertia retarding type organic waste gas three-gas fusion provided by the scheme;

fig. 13 is a circuit diagram of a controller of a three-gas fusion type purification device based on inertia retarding type organic waste gas according to the present scheme;

fig. 14 is a circuit diagram of a biaxial motor and an atomizing motor of the inertia-retarding-type organic waste gas-based three-gas fusion type purification device provided by the scheme;

fig. 15 is a circuit diagram of a power supply of an inertia-retarding-type organic waste gas three-gas fusion-based purification device provided by the scheme;

fig. 16 is a schematic block diagram of a purification device based on inertia retarding type organic waste gas three-gas fusion.

Wherein, 1, a bottom plate, 2, a box body, 3, a cushion block, 4, an exhaust box, 5, an inertia slow-down type centrifugal flow type buoy air leakage mechanism, 6, a double-shaft rotating mechanism, 7, a motor groove, 8, a gear groove, 9, a rotating groove, 10, a double-shaft motor, 11, a driving gear, 12, a centrifugal purification mechanism, 13, a rotating disc, 14, a supporting tube, 15, a roller, 16, an annular rack, 17, a blocking slow-down mechanism, 18, an annular collecting box, 19, a feed opening, 20, a blocking plate, 21, a slow-down opening, 22, a one-way mixing mechanism, 23, a ten-way plate, 24, a one-way check valve, 25, an iron rod, 26, a dust-removing coil, 27, a mixing cavity, 28, and a three-air horizontal combined type embedded adsorption type harm removing mechanism, 29, a harm-removing filtering mechanism, 30, a filtering box, 31, an exhaust port, 32, absorbent cotton, 33, an activated carbon adsorption layer, 34, an atomization adsorption mechanism, 35, an atomization motor, 36, an atomization pipe, 37, a water mist pipe, 38, a circulation box, 39, a water outlet, 40, an air-ion mixing mechanism, 41, an anion generator, 42, a power pipe, 43, an exhaust valve, 44, a purification pipe, 45, a pipeline clamp, 46, an adsorbed water gas wave dewatering mechanism, 47, a pulse generator, 48, a pulse shunt pipe, 49, a circulation shunt pipe, 50, a kinetic energy integration mechanism, 51, a power generation coil, 52, a magnet, 53, a rectifier, 54, a storage battery, 55, a connector air inlet, 56 and a controller.

The accompanying drawings are included to provide a further understanding of the present solution and are incorporated in and constitute a part of this specification, illustrate embodiments of the solution and together with the description serve to explain the principles of the solution and not to limit the solution.

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 obtained by a person of ordinary skill in the art based on the embodiments in the present disclosure without any creative effort belong to the protection scope of the present disclosure.

In the description of the present solution, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on orientations or positional relationships shown in the drawings, only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, are not to be construed as limiting the present solution.

As shown in fig. 1-4, the present disclosure provides an inertia-slowing type organic waste gas three-gas fusion type purification apparatus, which includes a bottom plate 1, a case 2, a pad 3, an exhaust case 4, an inertia-slowing type centrifugal flow type buoy leakage mechanism 5, a three-gas horizontal combined embedded adsorption type harm removal mechanism 28, an adsorbed water wave removal mechanism 46, and a kinetic energy integration mechanism 50, wherein the case 2 is disposed on an upper wall of the bottom plate 1, the case 2 is disposed in a through manner, the pad 3 is symmetrically disposed on an upper wall of the case 2, the exhaust case 4 is disposed on an upper wall of the pad 3, the inertia-slowing type centrifugal flow type buoy leakage mechanism 5 is disposed on an inner wall of the case 2, the three-gas horizontal combined embedded adsorption type harm removal mechanism 28 is disposed on a side wall of the case 2, the adsorbed water wave removal mechanism 46 is disposed on a side wall of the exhaust case 4, the kinetic energy integration mechanism 50 is disposed on a side wall of the case 2, the inertia-slowing type centrifugal flow type buoy leakage mechanism 5 includes a two-shaft rotation mechanism 6, a centrifugal purification mechanism 12, a retarding mechanism 17, and a one-way mixing mechanism 22, the centrifugal purification mechanism 12 is disposed on an upper wall of the two-shaft rotation mechanism 2, the centrifugal rotation mechanism 12 is disposed on one side wall of the centrifugal flow retarding mechanism 12.

As shown in fig. 2, 4 and 11, the double-shaft rotating mechanism 6 includes a motor groove 7, a gear groove 8, a rotating groove 9, a double-shaft motor 10 and a driving gear 11, the motor groove 7 is disposed on the upper wall of the box body 2, the motor groove 7 is arranged in a through manner, the gear grooves 8 are symmetrically disposed on the upper wall of the box body 2 at two sides of the motor groove 7, the gear grooves 8 are arranged in a through manner, the rotating groove 9 is disposed on the inner wall of the box body 2, the rotating groove 9 is a cavity with an opening at one end, the double-shaft motor 10 is disposed in the motor groove 7, power ends at two sides of the double-shaft motor 10 are arranged in the gear groove 8 in a through manner, the driving gear 11 is disposed at power ends at two sides of the double-shaft motor 10 symmetrically, and the driving gear 11 is disposed in the gear groove 8; as shown in fig. 4 and 10, the centrifugal cleaning mechanism 12 includes a rotating disk 13, a supporting tube 14, a roller 15 and an annular rack 16, the supporting tube 14 is respectively penetrated through the inner wall of the box body 2 and the inner wall of the rotating groove 9, the rotating disk 13 is rotatably arranged on the supporting tube 14, the rotating disk 13 is oppositely arranged, the roller 15 is arranged between the supporting tubes 14, the annular rack 16 is symmetrically arranged at the outer side of the roller 15, the annular rack 16 is arranged below the driving gear 11, and the annular rack 16 is meshed with the driving gear 11; as shown in fig. 4, 10 and 12, the stopping and slowing mechanism 17 includes an annular collecting box 18, a feed opening 19, a blocking plate 20 and slowing openings 21, the annular collecting box 18 is arranged outside one end of the roller 15 far away from the rotating groove 9, the annular collecting box 18 is a cavity with an opening at one end, the feed opening 19 is arranged on one side wall of the roller 15 close to the annular collecting box 18, the blocking plate 20 is arranged on one inner wall of the roller 15 close to the feed opening 19, and multiple groups of the slowing openings 21 are arranged on the side wall of the blocking plate 20; as shown in fig. 4 and 10, the one-way mixing mechanism 22 comprises a cross plate 23, one-way air outlet valves 24, iron rods 25, dedusting coils 26 and a mixing cavity 27, wherein the cross plate 23 is arranged on the inner wall of one end of the blocking plate 20 far away from the feed opening 19, multiple groups of the one-way air outlet valves 24 are arranged on the side wall of the cross plate 23, the iron rods 25 are arranged between the cross plate 23 and the blocking plate 20, the dedusting coils 26 are arranged on the inner wall of the roller 15 between the cross plate 23 and the blocking plate 20, the dedusting coils 26 are arranged on the outer side of the iron rods 25, and the mixing cavity 27 is arranged on one end of the roller 15 far away from the feed opening 19; the double-shaft motor 10 drives the driving gear 11 to rotate through a power end, the driving gear 11 is meshed with the annular rack 16, the driving gear 11 drives the roller 15 to rotate through the annular rack 16, the roller 15 rotates around the supporting pipe 14 through the rotary disc 13, waste gas enters the roller 15 through the supporting pipe 14 at one end, close to one end of the annular collecting box 18, of the box body 2, the waste gas collides with the barrier plate 20 through impact force, dust particles in the waste gas lose flowing inertia due to the blocking of the barrier plate 20 and fall into the roller 15, the roller 15 rotates to drive the particles to do centrifugal motion, the dust particles enter the annular collecting box 18 through the discharge port 19 in the rotating process due to gravity factors, the waste gas continues to flow into the roller 15, the flowing speed of the collided waste gas is reduced, the waste gas enters the middle of the roller 15 through the retarding port 21, at the moment, the iron rod 25 is electrified, a magnetic field is generated between the dust removing coil 26 and the iron rod 25, the magnetic field adsorbs smaller dust in the waste gas through magnetic force, waste gas is stored in the mixing cavity 27, the waste gas purification medicament is shunted to the waste gas through the air outlet check valve 24, the waste gas is mixed with the medicament, the waste gas is fully adsorbed in the waste gas, and the waste gas in the mixing cavity 27, and the waste gas is fully mixed with harmful substances in the waste gas, and the waste gas in the roller 15, and the waste gas is fully adsorbed by the waste gas, and the waste gas in the waste gas is fully mixed medicament in the waste gas.

As shown in fig. 1 and 4, the three-gas horizontal combined embedded adsorption type pest eliminating mechanism 28 comprises a pest eliminating filtering mechanism 29, an atomization adsorption mechanism 34 and a gas separation mixing mechanism 40, wherein the pest eliminating filtering mechanism 29 is arranged in the exhaust box 4, the atomization adsorption mechanism 34 is arranged outside the roller 15, and the gas separation mixing mechanism 40 is arranged on one side of the box body 2 far away from the annular collecting box 18; as shown in fig. 4 and 10, the harmful substance removing filter mechanism 29 includes a filter box 30, an exhaust port 31, a water absorbent cotton 32 and an activated carbon adsorption layer 33, the filter box 30 is disposed on the inner wall of one end of the exhaust box 4, the filter box 30 is a cavity with two open ends, the exhaust port 31 is disposed on one side of the exhaust box 4 close to the annular collecting box 18, the water absorbent cotton 32 is disposed on the inner wall of the filter box 30, and the activated carbon adsorption layer 33 is disposed on the inner wall of the exhaust box 4 at one end of the exhaust box 4 close to the exhaust port 31; as shown in fig. 2, 5, 6 and 7, the atomizing adsorption mechanism 34 includes an atomizing motor 35, an atomizing pipe 36, a water mist pipe 37, a circulating box 38 and a water outlet 39, the circulating box 38 is disposed outside one end of the roller 15 away from the annular collecting box 18, an upper wall and a bottom wall of the circulating box 38 are respectively fixedly connected with an upper wall of the box body 2 and a bottom wall of the box body 2, the circulating box 38 is a cavity with an open end, the roller 15 is rotatably disposed in the circulating box 38 in a penetrating manner, the water outlet 39 is disposed on a side wall of one end of the roller 15 close to the circulating box 38, the atomizing motor 35 is disposed on a side wall of the circulating box 38, the atomizing pipe 36 is disposed between the circulating box 38 and a power input end of the atomizing motor 35, and the water mist pipe 37 is disposed between the exhaust box 4 and a power output end of the atomizing motor 35; as shown in fig. 3 and 8, the air-ion mixing mechanism 40 includes an anion generator 41, a power pipe 42, an exhaust valve 43, a purge pipe 44 and a pipe clamp 45, wherein the exhaust valve 43 is communicated with the side wall of the support pipe 14 at one end of the box body 2 close to the circulation box 38, the purge pipe 44 is communicated with and arranged between the exhaust valve 43 and the exhaust box 4, the anion generator 41 is arranged on the side wall of the box body 2 above the exhaust valve 43, the power pipe 42 is communicated with and arranged between the power output end of the anion generator 41 and one side of the exhaust box 4 far from the exhaust port 31, and the pipe clamp 45 is arranged between the box body 2 and the purge pipe 44; the medicine in the mixing cavity 27 is mixed with the exhaust gas and then discharged into the purifying pipe 44 through the exhaust valve 43, the roller 15 rotates to enable the medicine in the mixing cavity 27 to flow, when the exhaust valve 43 is in an exhaust state, the float bowl pulls down one end of the lever due to the action of gravity, at the moment, the lever is in an inclined state, a gap is formed at the contact part of the lever and the exhaust hole, the gas is discharged from the exhaust hole through the gap, along with the discharge of air, the water level rises, the float bowl floats upwards under the buoyancy action of water, the sealing end surface on the lever gradually presses up the exhaust hole until the whole exhaust hole is completely blocked, the exhaust valve 43 is completely in a closed state, therefore, the medicine in the mixing cavity 27 cannot flow out, the gas is discharged into the exhaust box 4 through the purifying pipe 44 through the exhaust hole of the exhaust valve 43, at the moment, the atomizing motor 35 extracts the medicine in the circulating box 38 through the atomizing pipe 36, the medicine enters the circulating box 38 through the water outlet 39, the medicine is atomized by the atomizing motor 35 and then discharged into the exhaust box 4 through the water mist pipe 37, the purifying pipe 44 and the exhaust pipe 37 are horizontally arranged, so that the waste gas and the negative ion mixed with the negative ion are fully absorbed and absorbed by the negative ion, and then the exhaust gas is discharged to the negative ion absorption carbon ion absorption tank 4, and the exhaust gas, and the negative ion absorption tank, and the negative ion absorption carbon absorption tank, the waste gas absorption tank, and the waste gas absorption tank.

As shown in fig. 2 and 3, the water removing mechanism 46 for absorbing water-gas waves comprises a pulse generator 47, a pulse shunt pipe 48 and a circulation shunt pipe 49, wherein the pulse generator 47 is arranged on the side wall of the exhaust box 4, the pulse shunt pipe 48 is communicated between the exhaust box 4 and the power output end of the pulse generator 47, and the circulation shunt pipe 49 penetrates through the box body 2 and the exhaust box 4 and is communicated between the filter box 30 and the circulation box 38; the pulse generator 47 sends pulse waves to the inside of the filter box 30 through the pulse shunt pipe 48 to impact the absorbent cotton 32, so that the medicament adsorbed on the absorbent cotton 32 is impacted to the bottom of the filter box 30, and the medicament flows back to the inside of the circulation box 38 through the circulation shunt pipe 49.

As shown in fig. 1, 8 and 10, the kinetic energy integration mechanism 50 includes a power generation coil 51, a magnet 52, a rectifier 53 and a storage battery 54, the power generation coil 51 is disposed on the inner wall of the rotating slot 9, the magnet 52 is disposed on the side wall of one end of the roller 15 close to the rotating slot 9, the power generation coil 51 is disposed outside the magnet 52, the rectifier 53 is disposed on the side wall of the box body 2 below the exhaust valve 43, and the storage battery 54 is disposed on the side wall of the box body 2 at one side of the rectifier 53; the roller 15 rotates the magnet 52, and the magnet 52 rotates to cut the magnetic induction lines inside the generating coil 51, so that the generating coil 51 generates current.

The power generation coil 51 is electrically connected to a rectifier 53, and the rectifier 53 is electrically connected to a battery 54.

As shown in FIG. 3, the supporting tube 14 of the roller 15 far away from the exhaust valve 43 is communicated with an air inlet connector 55, and the air inlet connector 55 is used for externally connecting an exhaust gas pipeline.

As shown in fig. 1, the side wall of the case 2 is provided with a controller 56.

As shown in fig. 13 to 16, the controller 56 is electrically connected to the biaxial motor 10, the iron rod 25, the atomizing motor 35, the negative ion generator 41, and the pulse generator 47, respectively.

In particular use, the exhaust gas purifying agent solution is added to the mixing chamber 27.

In the first embodiment, the exhaust gas is subjected to a preliminary purification treatment.

Specifically, waste gas enters the roller 15 through the supporting tube 14 through the air inlet connector 55, the controller 56 controls the double-shaft motor 10 to start, the double-shaft motor 10 drives the driving gear 11 to rotate through the power end, the driving gear 11 is meshed with the annular rack 16, the driving gear 11 drives the roller 15 to rotate through the annular rack 16, the roller 15 rotates around the supporting tube 14 through the turntable 13, waste gas enters the roller 15 through the supporting tube 14 at one end of the box body 2 close to the annular collecting box 18, the waste gas collides with the blocking plate 20 through impact force, dust particles in the waste gas lose flowing inertia due to the blocking of the blocking plate 20 and then fall into the roller 15, the roller 15 rotates to drive the particles to do centrifugal motion, dust particles enter into annular collecting box 18 through feed opening 19 at rotatory in-process because of gravity factor inside, waste gas continues to flow to roller 15 inside, it reduces to get rid of the waste gas flow velocity of striking, waste gas enters into roller 15 middle part through slowing down mouth 21, at this moment, controller 56 control iron bar 25 circular telegram, produce magnetic field between dust removal coil 26 and the iron bar 25, magnetic field adsorbs less dust in to waste gas through magnetic force, the inside storage of hybrid chamber 27 has waste gas purification medicament, waste gas after being adsorbed by magnetic field is shunted inside hybrid chamber 27 through one-way air outlet valve 24, waste gas mixes with the inside medicament of hybrid chamber 27, make abundant and the medicament of waste gas mix under the rotational force of roller 15, the medicament adsorbs the neutralization to the harmful substance in the waste gas.

In the second embodiment, the mixed exhaust gas is subjected to the secondary purification treatment based on the above embodiment.

Specifically, the medicament in the mixing chamber 27 and the exhaust gas are mixed and then continuously flow, the exhaust gas is discharged into the purification pipe 44 through the exhaust valve 43, the roller 15 rotates to enable the medicament in the mixing chamber 27 to flow, when the exhaust valve 43 is in an exhaust state, the float in the exhaust valve 43 pulls down one end of the lever due to the action of gravity, at the moment, the lever is in an inclined state, a gap is formed at the contact part of the lever and the exhaust hole, the gas is discharged from the exhaust hole through the gap, along with the discharge of the air, the water level rises, the float floats upwards under the buoyancy action of the water, the sealing end surface on the lever gradually presses the exhaust hole until the whole exhaust hole is completely blocked, the exhaust valve 43 is completely in a closed state, therefore, the medicament in the mixing chamber 27 cannot flow out, and the gas is discharged into the exhaust box 4 through the exhaust hole of the exhaust valve 43 through the purification pipe 44, at this moment, controller 56 controls atomizing motor 35 to start, atomizing motor 35 extracts the inside medicament of circulation case 38 through atomizing pipe 36, the medicament enters into inside circulation case 38 through lower mouth of a river 39, the medicament is discharged into inside exhaust box 4 through water smoke pipe 37 after atomizing motor 35 atomizes, purge tube 44 and water smoke pipe 37 horizontal setting, make waste gas and the medicament after the atomizing recoil mix, controller 56 controls anion generator 41 to start, anion generator 41 carries the anion inside exhaust box 4 through the power end, make anion and waste gas combine together, anion and the medicament after the atomizing carry out abundant absorption purification to waste gas, the waste gas after the purification loops through cotton 32 and active carbon adsorption layer 33 filtration, and the exhaust box 4 inside is discharged through gas vent 31 after the exhaust port 31.

In the third embodiment, based on the above embodiment, the chemical solution adsorbed to the absorbent cotton 32 is recovered, and at the same time, the absorbent cotton 32 is dried.

Specifically, the controller 56 controls the pulse generator 47 to start, the pulse generator 47 transmits pulse waves to the inside of the filter box 30 through the pulse shunt tube 48 to impact the absorbent cotton 32, so that the medicament adsorbed on the absorbent cotton 32 is impacted to the bottom of the filter box 30, and the medicament flows back to the inside of the circulation box 38 through the circulation shunt tube 49.

As an embodiment of the present invention, the roller 15 drives the magnet 52 to rotate, the magnet 52 rotates to cut magnetic induction lines inside the power generation coil 51, so that the power generation coil 51 generates current, the power generation coil 51 transmits the current into the rectifier 53, and the rectifier 53 integrates the current and transmits the current into the storage battery 54 for storage; repeating the above operations when using the product for the next time.

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 solution 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 solution, the scope of which is defined in the appended claims and their equivalents.

The present solution and the embodiments thereof have been described above, and the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present solution, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the present disclosure without inventive faculty to devise similar arrangements and embodiments without departing from the spirit and scope of the present disclosure.

Claims

1. The utility model provides a based on three gas fusion clarification plant of inertia slows down type organic waste gas, includes bottom plate (1), box (2), cushion (3), exhaust case (4), its characterized in that: also comprises an inertia slowing-down type centrifugal flow type buoy air leakage mechanism (5), a three-air horizontal combined embedded adsorption type pest removing mechanism (28), an adsorbed water wave water removing mechanism (46) and a kinetic energy integration mechanism (50), the box body (2) is arranged on the upper wall of the bottom plate (1), the box body (2) is arranged in a through way, the cushion blocks (3) are symmetrically arranged on the upper wall of the box body (2), the exhaust box (4) is arranged on the upper wall of the cushion blocks (3), the inertia slowing-down type centrifugal flow type buoy air leakage mechanism (5) is arranged on the inner wall of the box body (2), the three-gas horizontal combined embedded adsorption type pest removing mechanism (28) is arranged on the side wall of the box body (2), the dewatering mechanism (46) for absorbing water wave is arranged on the side wall of the exhaust box (4), the kinetic energy integration mechanism (50) is arranged on the side wall of the box body (2), the inertia slowing type centrifugal flow type buoy air leakage mechanism (5) comprises a double-shaft rotating mechanism (6), a centrifugal purification mechanism (12), a blocking slowing mechanism (17) and a one-way mixing mechanism (22), the double-shaft rotating mechanism (6) is arranged on the upper wall of the box body (2), the centrifugal purification mechanism (12) is arranged on the inner wall of the box body (2), the obstruction retarding mechanism (17) is arranged on the inner wall of the centrifugal purification mechanism (12), the one-way mixing mechanism (22) is arranged on the inner wall of the centrifugal purification mechanism (12) on one side of the stopping and slowing mechanism (17).

2. The three-gas fusion type purification equipment based on the inertia retarding type organic waste gas is characterized in that: double-shaft rotating mechanism (6) includes motor groove (7), gear groove (8), rotation groove (9), double-shaft motor (10) and drive gear (11), box (2) upper wall is located in motor groove (7), and motor groove (7) are for lining up the setting, box (2) upper wall in motor groove (7) both sides is located to gear groove (8) symmetry, and gear groove (8) are for lining up the setting, box (2) inner wall is located in rotation groove (9), and rotation groove (9) are one end open-ended cavity, in motor groove (7) is located in double-shaft motor (10), in double-shaft motor (10) both sides power end runs through and locates gear groove (8), drive gear (11) are located the symmetry and are located double-shaft motor (10) both sides power end, and in gear groove (8) are located in drive gear (11).

3. The three-gas fusion type purification equipment based on the inertia slowing type organic waste gas as claimed in claim 2, characterized in that: centrifugal purification mechanism (12) are including carousel (13), stay tube (14), roller (15) and annular rack (16), stay tube (14) run through respectively and locate box (2) inner wall and rotation groove (9) inner wall, carousel (13) rotate locate stay tube (14), and carousel (13) set up relatively, roller (15) are located between stay tube (14), roller (15) outside is located to annular rack (16) symmetry, and drive gear (11) below is located to annular rack (16), and annular rack (16) mesh in drive gear (11) mutually.

4. The three-gas fusion type purification equipment based on the inertia retarding type organic waste gas is characterized in that: the blocking retarding mechanism (17) comprises an annular collecting box (18), a feed opening (19), a blocking plate (20) and a retarding opening (21), the annular collecting box (18) is arranged on the outer side of one end of the rotary groove (9) far away from the roller (15), the annular collecting box (18) is a cavity with one open end, the feed opening (19) is arranged on the side wall of one end, close to the annular collecting box (18), of the roller (15), the blocking plate (20) is arranged on the inner wall of one end, close to the feed opening (19), of the roller (15), and the side wall of the blocking plate (20) is arranged on multiple groups of the retarding opening (21).

5. The three-gas fusion type purification equipment based on the inertia slowing type organic waste gas as claimed in claim 4, characterized in that: one-way mixing mechanism (22) is including ten boards (23), one-way air outlet valve (24), iron rod (25), dust removal coil (26) and hybrid chamber (27), ten boards (23) are located the one end inner wall that feed opening (19) were kept away from in barrier plate (20), ten boards (23) lateral wall are located to one-way air outlet valve (24) multiunit, ten boards (23) are located in iron rod (25) and are blockked between board (20), roller (15) inner wall between ten boards (23) and barrier plate (20) is located in dust removal coil (26), and iron rod (25) outside is located in dust removal coil (26), hybrid chamber (27) are located roller (15) and are kept away from the one end of feed opening (19).

6. The three-gas fusion type purification equipment based on the inertia slowing type organic waste gas as claimed in claim 5, is characterized in that: three gas horizontal combination formula embedding absorption type harmful mechanisms (28) are including removing harmful filter mechanism (29), atomizing adsorption mechanism (34) and gas separation mixing mechanism (40), it is inside exhaust case (4) to remove harmful filter mechanism (29), roller (15) outside is located in atomizing adsorption mechanism (34), one side that annular collecting box (18) were kept away from in box (2) is located in gas separation mixing mechanism (40).

7. The three-gas fusion type purification equipment based on the inertia retarding type organic waste gas is characterized in that: remove evil filtering mechanism (29) and include rose box (30), gas vent (31), cotton (32) and activated carbon adsorption layer (33) absorb water, gas vent (4) one end inner wall is located in rose box (30), and rose box (30) are both ends open-ended cavity, one side that gas vent (4) are close to annular collecting box (18) is located in gas vent (31), filter box (30) inner wall is located in cotton (32) that absorbs water, gas vent (4) inner wall of gas vent (31) one end is located in activated carbon adsorption layer (33).

8. The three-gas fusion type purification equipment based on the inertia slowing type organic waste gas as claimed in claim 7, characterized in that: atomizing adsorption mechanism (34) is including atomizing motor (35), atomizing pipe (36), water smoke pipe (37), circulation case (38) and lower mouth of a river (39), the one end outside that annular collecting box (18) was kept away from in roller (15) is located in circulation case (38), circulation case (38) upper wall and diapire concreties continuously with box (2) upper wall and box (2) diapire respectively, and circulation case (38) are one end open-ended cavity, and roller (15) run through the rotation and locate circulation case (38), the one end lateral wall that roller (15) are close to circulation case (38) is located in lower mouth of a river (39), circulation case (38) lateral wall is located in atomizing motor (35), atomizing pipe (36) intercommunication is located between circulation case (38) and atomizing motor (35) power input end, water smoke pipe (37) intercommunication is located between exhaust box (4) and atomizing motor (35) power take off end.

9. The three-gas fusion type purification equipment based on the inertia retarding type organic waste gas is characterized in that: the gas-ion mixing mechanism (40) comprises an anion generator (41), a power pipe (42), an exhaust valve (43), a purification pipe (44) and a pipeline clamp (45), wherein the exhaust valve (43) is communicated with a side wall of a support pipe (14) which is arranged at one end of the box body (2) and close to one end of the circulation box (38), the purification pipe (44) is communicated with the side wall of the support pipe (14) which is arranged between the exhaust valve (43) and the exhaust box (4), the anion generator (41) is arranged on the side wall of the box body (2) above the exhaust valve (43), the power pipe (42) is communicated with the side wall of the power output end of the anion generator (41) and one side of the exhaust box (4) far away from the exhaust port (31), and the pipeline clamp (45) is arranged between the box body (2) and the purification pipe (44).

10. The three-gas fusion type purification equipment based on the inertia retarding type organic waste gas is characterized in that: adsorb water gas ripples dewatering mechanism (46) and include pulse generator (47), pulse shunt tubes (48) and circulation shunt tubes (49), exhaust case (4) lateral wall is located in pulse generator (47), exhaust case (4) and pulse generator (47) power take off between are located in pulse shunt tubes (48) intercommunication, circulation shunt tubes (49) run through between box (2) and exhaust case (4) intercommunication are located between rose box (30) and circulation case (38).