CN111888927A - Smog and smoke smell treatment system - Google Patents

Abstract

The invention relates to a smoke and smoke smell treatment system, which relates to the technical field of smoke treatment and comprises a box body, a moxa smoke treatment unit, a pre-processor, a high-temperature treatment cooling unit and an electric control box; moxa cigarette processing unit, high temperature handle cooling unit and electrical control box all set up in the inside of box, and wherein leading treater is connected with moxa cigarette processing unit, and moxa cigarette processing unit is connected with high temperature handle cooling unit. The moxa cigarette processing device solves the harmless treatment problem of moxa cigarette generated in the moxibustion treatment process, avoids harm of the moxa cigarette to moxibustion treatment practitioners, reduces influence of the moxa cigarette on the environment, makes contribution to traditional Chinese medicine and pharmacy career, and improves practicability and safety.

Description

Smog and smoke smell treatment system

Technical Field

The invention relates to the technical field of smoke treatment, in particular to a smoke and smoke smell treatment system.

Background

The moxibustion is a traditional Chinese medicine external treatment method, has good curative effect, convenient operation and no toxic or side effect, generates a large amount of moxa smoke in the moxibustion process, contains complex components with various forms, and has influence on human health after being inhaled for a long time.

The mainstream moxa smoke purifier in the market can treat PM2.5 and tar in the moxa smoke, but has poor treatment capability on toxic and harmful components in the moxa smoke and cannot be completely removed, and the components in the moxa smoke have the greatest harm to human bodies. Moxa smoke clarifier on the present market mainly has two kinds:

1. the method has the advantages that the method comprises the steps of multistage filtration and activated carbon adsorption, particulate matters and harmful gases in the moxa smoke cannot be completely removed, the moxa smoke cannot be recycled, the effective treatment period is short, the filter element and the activated carbon filter element need to be frequently replaced, the use cost is high, and the replaced filter element causes secondary pollution to the environment;

2. high-voltage static electricity and filtration, wherein the method of high-voltage electrostatic field is used for treating the particles and tar in the moxa smoke, the particles and tar cannot be completely removed, the residues and the harmful components in the moxa smoke cannot be treated, high-concentration ozone can be generated in the treatment process, the harm to the environment and human bodies is large, the high-voltage electric field is poor in stability and prone to failure in the treatment process, and the tar accumulated in the high-voltage electric field is difficult to clean.

The existing moxa smoke purifier has problems to be improved urgently.

Disclosure of Invention

The invention aims to provide a reasonably designed smoke and smoke smell treatment system aiming at the defects and shortcomings of the prior art, solves the problem of harmless treatment of moxa smoke generated in the moxibustion treatment process, avoids the harm of the moxa smoke to moxibustion treatment practitioners, reduces the influence of the moxa smoke on the environment, contributes to the traditional Chinese medicine industry, and improves the practicability and safety.

In order to achieve the purpose, the invention adopts the following technical scheme: the device comprises a box body, a moxa smoke processing unit, a pre-processor, a high-temperature processing and cooling unit and an electrical control box; the moxa smoke processing unit, the high-temperature processing cooling unit and the electric control box are all arranged inside the box body, wherein the pre-processor is connected with the moxa smoke processing unit, and the moxa smoke processing unit is connected with the high-temperature processing cooling unit;

the pre-processor consists of a pre-processing shell, a pre-processing filter element, a pre-processing smoke inlet, a water outlet, a pre-processing smoke outlet and supporting legs; the bottom of the preposed processing shell is fixedly provided with a plurality of supporting legs, the bottom of the preposed processing shell at the center of the supporting legs is in through connection with a water outlet, the water outlet is provided with a valve, the side wall of the bottom of the preposed processing shell is in through connection with a plurality of preposed processing smoke inlets, and the preposed processing smoke inlets are in through connection with a moxa smoke collecting device; a pre-treatment filter element is fixed in the pre-treatment shell through a connecting buckle, and the top of the pre-treatment shell is connected with a pre-treatment smoke outlet in a penetrating way;

the moxa smoke treatment unit consists of a preheater outer box, a preheater shell, a catalytic decomposer, a heat exchanger, a preheater smoke inlet, a tail gas outlet, a heating pipeline and a resistance wire honeycomb heater; the catalytic decomposition device comprises a box body, a preheater outer box, a preheater shell, a catalytic decomposition device and a cooling unit, wherein the preheater outer box is embedded and fixed in the box body, the preheater shell is fixed in the preheater outer box, the upper part of the side wall of the preheater shell is connected with a preheater smoke inlet in a through mode, the preheater smoke inlet penetrates through the side wall of the preheater outer box and then is connected with a pre-treatment smoke outlet in a through mode, the catalytic decomposition device is arranged in the preheater shell, the lower part of the catalytic decomposition device is connected with a heat exchanger in a through mode, and a tail gas outlet of the; the bottom of the side wall of the preheater shell is in through connection with a heating pipeline, the upper end of the heating pipeline is in through connection with the inlet end of the catalytic decomposer, and a plurality of resistance wire honeycomb heaters are arranged in the heating pipeline;

the high-temperature treatment cooling unit is arranged in the box body and also comprises a water cooler, a negative pressure exhaust fan, a water cooler exhaust pipe, a radiator, a water storage tank, a radiator water inlet pipe, a radiator water outlet pipe, a water return pipe, a radiating fan, an overflow pipe and an electronic water pump; the water cooler air inlet pipe is arranged at the bottom of the water cooler in a penetrating way, the side wall of the water cooler is connected with a water cooler exhaust pipe in a penetrating way, and a negative pressure exhaust fan is connected in series in the water cooler exhaust pipe; the upper part of the side wall of the water cooler is communicated with the water inlet of the radiator through a radiator water inlet pipe, the side wall of the radiator is provided with a plurality of radiating fans, the water outlet of the radiator is communicated with the water inlet of the water storage tank through a radiator water outlet pipe, and the water outlet of the water storage tank is communicated with the bottom of the side wall of the water cooler through a water return pipe; an electronic water pump is connected in series on the water return pipe; the top wall of the water storage tank is connected with an overflow pipe in a run-through manner;

the negative pressure air exhaust fan, the electronic water pump and the cooling fan are all electrically connected with an electrical control box, and the electrical control box is arranged inside the box body.

Further, the heat exchanger is one of a single or a plurality of straight tube type radiators, a single or a plurality of coil type heat exchangers and a plate type heat exchanger.

Further, the negative pressure exhaust fan is one of a high pressure blower, a vortex air pump, a centrifugal fan and an axial flow fan.

Further, the heating mode of the resistance wire honeycomb heater is electromagnetic heating, high-frequency heating or microwave heating.

Furthermore, the inner of the outer box of the preheater is filled with a heat insulation layer.

Furthermore, a second temperature sensor is fixed on the side wall of the heating pipeline and arranged at the position below the resistance wire honeycomb heater at the bottommost layer.

Furthermore, a first temperature sensor is fixed on the side wall of the heating pipeline and is arranged above the resistance wire honeycomb heater on the topmost layer.

Furthermore, the moxa smoke collecting device consists of a moxa smoke collecting shell, a moxa stick fixing frame, an inner layer and a moxa smoke collecting air outlet; the inside of chinese mugwort cigarette collection casing inlays and is equipped with the inlayer, and the inlayer is embedded to be equipped with chinese mugwort strip mount, and the top of chinese mugwort cigarette collection casing link up and is equipped with chinese mugwort cigarette and collects the air exit, and this chinese mugwort cigarette is collected the air exit and is advanced smoke mouth through connection with leading processing.

Furthermore, the water cooler exhaust pipe is communicated with a noise reduction air inlet in the exhaust noise reduction filtering unit, and the exhaust noise reduction filtering unit also comprises a noise reduction shell and a noise reduction filter core; the casing of making an uproar sets up in the inside top of box, and is located the rear of high temperature treatment cooling unit, and the air intake of making an uproar link up the setting on the diapire of the casing of making an uproar, and the inside of the casing of making an uproar is equipped with the filter core of making.

Furthermore, the water cooler exhaust pipe is communicated with the inlet end of a hot air discharge device, and the hot air discharge device consists of a discharge shell, a discharge fan and a discharge pipe; the outer discharge shell is fixed on the box body, the outer side wall of the outer discharge shell is connected with an outer discharge pipe in a through mode, and an outer discharge fan is connected in series in the outer discharge pipe; the outer exhaust fan is electrically connected with the electric control box.

Furthermore, universal wheels are fixed at four corners of the bottom of the box body.

The working principle of the invention is as follows: the moxa cigarette collecting device collects smoke generated by moxa sticks, sends the smoke into the pre-processor, enters the interior of the pre-processor shell from a pre-processing smoke inlet, is filtered by an internal pre-processing filter element, is discharged to the moxa cigarette processing unit from a pre-processing smoke outlet, enters the interior of the pre-heater shell from the pre-heater smoke inlet, enters a heating pipeline from an opening at the bottom of the pre-heater shell, is heated by a resistance wire honeycomb heater in the heating pipeline, enters the catalytic decomposer, and is discharged from a tail gas outlet after entering the heat exchanger for heat exchange, wherein the heat exchanger absorbs partial heat of the catalytically decomposed smoke, is used for heating the moxa cigarette entering the interior of the pre-heater shell and preheating; the tail gas discharged from the tail gas outlet enters a water cooler, water in the water cooler is input into a water storage tank through a water return pipe, the smoke in the water cooler is cooled by water, the cooled smoke is pumped to a water cooler exhaust pipe by a negative pressure exhaust fan and is discharged, the water in the water cooler, which is cooled by high-temperature moxa smoke, is discharged into a radiator through a radiator inlet pipe and is radiated by a cooling fan in the radiator, and the radiated water is conveyed into the water storage tank through a radiator outlet pipe, so that the cyclic utilization of cooling water is realized.

After adopting the structure, the invention has the beneficial effects that: the invention provides a smoke and smoke smell treatment system, which solves the problem of harmless treatment of moxa smoke generated in the moxibustion treatment process, avoids the harm of the moxa smoke to moxibustion treatment practitioners, reduces the influence of the moxa smoke on the environment, makes a contribution to the traditional Chinese medicine industry, and improves the practicability and safety.

Description of the drawings:

fig. 1 is a schematic structural diagram of a first embodiment.

FIG. 2 is a schematic diagram of a pre-processor according to the present invention.

FIG. 3 is a schematic structural view of a moxa smoke processing unit according to the present invention.

Fig. 4 is a schematic structural view of a high-temperature treatment cooling unit in the second embodiment.

Description of reference numerals:

the device comprises a box body 1, a moxa smoke processing unit 2, a preheater outer box 2-1, a preheater shell 2-2, a catalytic decomposer 2-3, a heat exchanger 2-4, a preheater smoke inlet 2-5, a tail gas outlet 2-6, a heating pipeline 2-7, a resistance wire honeycomb heater 2-8, a first temperature sensor 2-9, a second temperature sensor 2-10, a heat insulation layer 2-11, a pre-processor 3, a pre-processing shell 3-1, a pre-processing filter element 3-2, a pre-processing smoke inlet 3-3, a water outlet 3-4, a pre-processing smoke outlet 3-5, a connecting buckle 3-6, supporting legs 3-7, a high-temperature processing cooling unit 4, a water cooler 4-1, a water cooler air inlet pipe 4-2, a negative pressure exhaust fan 4-3, 4-4 parts of a water cooler exhaust pipe, 4-5 parts of a radiator, 4-6 parts of a water storage tank, 4-7 parts of a radiator water inlet pipe, 4-8 parts of a radiator water outlet pipe, 4-9 parts of a water return pipe, 4-10 parts of a cooling fan, 4-11 parts of an overflow pipe, 4-12 parts of an electronic water pump, 5 parts of an electrical control box, 6 parts of a universal wheel, 7 parts of a hot air exhaust device, 7-1 parts of an exhaust shell, 7-2 parts of an exhaust fan, 7-3 parts of an exhaust pipe, 8 parts of an exhaust noise reduction filtering unit, 8-1 parts of a noise reduction shell, 8-2 parts of a noise reduction filter core, 8-3 parts of a noise reduction air inlet, 9 parts of a moxa smoke collecting device, 9-1 parts of.

The specific implementation mode is as follows:

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.

The first embodiment is as follows:

as shown in fig. 1 to fig. 3, the following technical solutions are adopted in the present embodiment: the device comprises a box body 1, a moxa smoke processing unit 2, a pre-processor 3, a high-temperature processing cooling unit 4 and an electrical control box 5; the moxa smoke processing unit 2, the high-temperature processing cooling unit 4 and the electric control box 5 are all arranged inside the box body 1, wherein the pre-processor 3 is connected with the moxa smoke processing unit 2, and the moxa smoke processing unit 2 is connected with the high-temperature processing cooling unit 4;

the pre-processor 3 consists of a pre-processing shell 3-1, a pre-processing filter element 3-2, a pre-processing smoke inlet 3-3, a water outlet 3-4, a pre-processing smoke outlet 3-5 and supporting legs 3-7; a plurality of supporting feet 3-7 are welded and fixed at the bottom of the preposed processing shell 3-1, the bottom of the preposed processing shell 3-1 at the center of the supporting feet 3-7 is connected with a water outlet 3-4 in a through way, a valve is arranged in the water outlet 3-4, the side wall of the bottom of the preposed processing shell 3-1 is connected with a plurality of preposed processing smoke inlets 3-3 in a through way, and the preposed processing smoke inlets 3-3 are connected with a moxa smoke collecting device 9 in a through way; the moxa smoke collecting device 9 consists of a moxa smoke collecting shell 9-1, a moxa stick fixing frame 9-2, an inner layer 9-3 and a moxa smoke collecting air outlet 9-4; an inner layer 9-3 (the inner layer 9-3 is made of high temperature resistant cotton) is embedded in the moxa smoke collecting shell 9-1, a moxa stick fixing frame 9-2 is embedded in the inner layer 9-3, a moxa smoke collecting air outlet 9-4 is arranged at the top of the moxa smoke collecting shell 9-1 in a penetrating way, and the moxa smoke collecting air outlet 9-4 is connected with a preposed processing smoke inlet 3-3 in a penetrating way; a preposed processing filter element 3-2 is fixed in the preposed processing shell 3-1 through a connecting buckle 3-6 (the preposed processing filter element 3-2 is filled by active carbon adsorption filtration, the connecting buckle 3-6 is fixed on the top of the preposed processing filter element 3-2 by welding, the periphery of the connecting buckle 3-6 is penetrated and sealed and welded on the shell wall of the preposed processing shell 3-1), and the top of the preposed processing shell 3-1 is connected with a preposed processing smoke outlet 3-5 in a penetrating way;

the moxa smoke processing unit 2 is composed of a preheater outer box 2-1, a preheater shell 2-2, a catalytic decomposer 2-3, a heat exchanger 2-4, a preheater smoke inlet 2-5, a tail gas outlet 2-6, a heating pipeline 2-7 and a resistance wire honeycomb heater 2-8; the preheater outer box 2-1 is embedded and fixed on the right side inside the box body 1, a heat insulation layer 2-11 is filled in the preheater outer box 2-1, a preheater shell 2-2 is fixed inside the preheater outer box 2-1, the upper part of the side wall of the preheater shell 2-2 is connected with a preheater smoke inlet 2-5 in a through way, the preheater smoke inlet 2-5 penetrates through the side wall of the preheater outer box 2-1 and is connected with a preposed processing smoke outlet 3-5 in a through way, a catalytic decomposer 2-3 is arranged inside the preheater shell 2-2, the lower part of the catalytic decomposer 2-3 is connected with a heat exchanger 2-4 in a through way (the heat exchanger 2-4 is a plate heat exchanger which absorbs heat in high-temperature flue gas after catalytic reaction and then emits the heat into the preheater shell 2-2, preheating moxa smoke in a preheater shell 2-2), and a tail gas outlet 2-6 of a heat exchanger 2-4 sequentially penetrates through the preheater shell 2-2 and the side wall of a preheater outer box 2-1 and is communicated with a water cooler air inlet pipe 4-2 in a high-temperature treatment cooling unit 4 through a pipeline; the bottom of the side wall of the preheater shell 2-2 is in through connection with a heating pipeline 2-7, the upper end of the heating pipeline 2-7 is in through connection with the inlet end of the catalytic decomposer 2-3, two resistance wire honeycomb heaters 2-8 are arranged in the heating pipeline 2-7, a first temperature sensor 2-9 and a second temperature sensor 2-10 are fixed on the side wall of the heating pipeline 2-7, the first temperature sensor 2-9 is arranged at the position above the resistance wire honeycomb heater 2-8 at the topmost layer, and the second temperature sensor 2-10 is arranged at the position below the resistance wire honeycomb heater 2-8 at the bottommost layer;

the high-temperature treatment cooling unit 4 is arranged above the left side in the box body 1, and further comprises a water cooler 4-1, a negative pressure exhaust fan 4-3, a water cooler exhaust pipe 4-4, a radiator 4-5, a water storage tank 4-6, a radiator water inlet pipe 4-7, a radiator water outlet pipe 4-8, a water return pipe 4-9, a cooling fan 4-10, an overflow pipe 4-11 and an electronic water pump 4-12; the water cooler air inlet pipe 4-2 is arranged at the bottom of the water cooler 4-1 in a penetrating way, the side wall of the water cooler 4-1 is connected with a water cooler exhaust pipe 4-4 in a penetrating way, and a negative pressure exhaust fan 4-3 is connected in series in the water cooler exhaust pipe 4-4; in high temperature seasons in summer, the water cooler exhaust pipe 4-4 is communicated with the inlet end of a hot air exhaust device 7, and the hot air exhaust device 7 is composed of an exhaust shell 7-1, an exhaust fan 7-2 and an exhaust pipe 7-3; the outer row shell 7-1 is fixed on the side wall of the box body 1, the outer side wall of the outer row shell 7-1 is connected with an outer row pipe 7-3 in a penetrating manner, and an outer row fan 7-2 is connected in series in the outer row pipe 7-3; the outer exhaust fan 7-2 is electrically controlled and connected with the electric control box 5; the upper part of the side wall of the water cooler 4-1 is communicated with a water inlet of a radiator 4-5 through a radiator water inlet pipe 4-7, the side wall of the radiator 4-5 is provided with a plurality of radiating fans 4-10 (the radiator 4-5 is of a box type structure with built-in radiating fins, the radiating fans 4-10 radiate heat absorbed by the wall of the radiator 4-5 box body), a water outlet of the radiator 4-5 is communicated with a water inlet of a water storage tank 4-6 through a radiator water outlet pipe 4-8, and a water outlet of the water storage tank 4-6 is communicated with the bottom of the side wall of the water cooler 4-1 through a water return pipe 4-9; an electronic water pump 4-12 is connected in series on the water return pipe 4-9; the top wall of the water storage tank 4-6 is connected with an overflow pipe 4-11 in a run-through way;

the negative pressure exhaust fan 4-3, the electronic water pump 4-12 and the cooling fan 4-10 are all electrically connected with an electrical control box 5, and the electrical control box 5 is arranged below the interior of the box body 1.

Furthermore, universal wheels 6 are fixed at four corners of the bottom of the box body 1.

The working principle of the specific embodiment is as follows: the moxa cigarette collecting device 9 collects smoke generated by the moxa stick, sends the smoke into the pre-processor 3, enters the interior of the pre-processing shell 3-1 through the pre-processing smoke inlet 3-3, is filtered by the pre-processing filter element 3-2 in the interior, is discharged to the moxa cigarette processing unit 2 through the pre-processing smoke outlet 3-5, enters the interior of the pre-heater shell 2-2 through the pre-heater smoke inlet 2-5, enters the heating pipeline 2-7 through the opening at the bottom of the pre-heater shell 2-2, is heated by the resistance wire honeycomb heater 2-8 in the heating pipeline 2-7 (the temperature of the preheated moxa cigarette discharged from the pre-heater shell 2-2 in the heating pipeline 2-7 is sensed by the temperature sensor 2-10 in real time, the temperature sensor 2-9 is used for sensing the temperature of the moxa cigarette heated by the resistance wire honeycomb heater 2-8 in real time), the smoke enters a catalytic decomposer 2-3, and the smoke after catalytic decomposition enters a heat exchanger 2-4 for heat exchange and then is discharged from a tail gas outlet 2-6, wherein the heat exchanger 2-4 absorbs part of heat of the smoke after catalytic decomposition and is used for heating the moxa smoke entering the preheater shell 2-2 for preheating; tail gas discharged from a tail gas outlet 2-6 enters a water cooler 4-1, water in a water storage tank 4-6 is input into the water cooler 4-1 through a water return pipe 4-9, the smoke in the water cooler 4-1 is cooled by water, the cooled smoke is pumped to a water cooler exhaust pipe 4-4 by a negative pressure exhaust fan 4-3 to be discharged, water cooled in the water cooler 4-1 and subjected to high temperature moxa smoke is discharged into a radiator 4-5 through a radiator water inlet pipe 4-7 and is radiated by a radiating fan 4-10 in the radiator 4-5, and the radiated water is conveyed into the water storage tank 4-6 through a radiator water outlet pipe 4-8 to realize the recycling of the cooling water; the cooled moxa smoke discharged by the water cooler exhaust pipe 4-4 enters the hot air exhaust device 7 and is pumped and exhausted outdoors by the exhaust fan 7-2.

After adopting above-mentioned structure, this embodiment's beneficial effect is: this embodiment provides a smog cigarette taste processing system, and it solves the innocent treatment problem of the moxa cigarette that produces among the moxa-moxibustion treatment process, has avoided the harm of moxa cigarette to moxa-moxibustion treatment practitioner, reduces the influence of moxa cigarette to the environment, makes the contribution for traditional chinese medicine cause, and practicality and security all obtain improving.

The second embodiment is as follows:

referring to fig. 4, the present embodiment differs from the first embodiment in that: the water cooler exhaust pipe 4-4 is communicated with a noise reduction air inlet 8-3 in the exhaust noise reduction filter unit 8, and the exhaust noise reduction filter unit 8 further comprises a noise reduction shell 8-1 and a noise reduction filter element 8-2; the noise reduction shell 8-1 is arranged above the interior of the box body 1 and behind the high-temperature treatment cooling unit 4, the noise reduction air inlet 8-3 is arranged on the bottom wall of the noise reduction shell 8-1 in a penetrating manner, the noise reduction shell 8-1 is of an open structure with an open side wall, and a noise reduction filter element 8-2 is arranged in the noise reduction shell 8-1; the gas exhausted from the water cooler exhaust pipe 4-4 is filtered by a noise reduction filter element 8-2 in the exhaust noise reduction filter unit 8 and then exhausted from the noise reduction shell 8-1 with an open structure, so that the wind noise and the tiny particles are effectively reduced; the rest of the structural components and the connection relationship are the same as those in the first embodiment.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims (9)

1. A smoke flavor treatment system, comprising: the device comprises a box body (1), a moxa smoke processing unit (2), a pre-processor (3), a high-temperature processing cooling unit (4) and an electric control box (5); the moxa smoke processing unit (2), the high-temperature processing cooling unit (4) and the electrical control box (5) are all arranged inside the box body (1), wherein the pre-processor (3) is connected with the moxa smoke processing unit (2), and the moxa smoke processing unit (2) is connected with the high-temperature processing cooling unit (4);

the pre-processor (3) consists of a pre-processing shell (3-1), a pre-processing filter element (3-2), a pre-processing smoke inlet (3-3), a water outlet (3-4), a pre-processing smoke outlet (3-5) and supporting legs (3-7); a plurality of supporting legs (3-7) are fixed at the bottom of the preposed processing shell (3-1), a water outlet (3-4) is connected at the bottom of the preposed processing shell (3-1) at the center of the supporting legs (3-7) in a penetrating way, a valve is arranged in the water outlet (3-4), a plurality of preposed processing smoke inlets (3-3) are connected at the side wall of the bottom of the preposed processing shell (3-1) in a penetrating way, and the preposed processing smoke inlets (3-3) are connected with a moxa smoke collecting device (9) in a penetrating way; a pre-treatment filter element (3-2) is fixed inside the pre-treatment shell (3-1) through a connecting buckle (3-6), and the top of the pre-treatment shell (3-1) is connected with a pre-treatment smoke outlet (3-5) in a penetrating way;

the moxa smoke treatment unit (2) is composed of a preheater outer box (2-1), a preheater shell (2-2), a catalytic decomposer (2-3), a heat exchanger (2-4), a preheater smoke inlet (2-5), a tail gas outlet (2-6), a heating pipeline (2-7) and a resistance wire honeycomb heater (2-8); the preheater outer box (2-1) is embedded and fixed in the box body (1), a preheater shell (2-2) is fixed in the preheater outer box (2-1), the upper part of the side wall of the preheater shell (2-2) is connected with a preheater smoke inlet (2-5) in a through mode, the preheater smoke inlet (2-5) penetrates through the side wall of the preheater outer box (2-1) and is connected with a preposed processing smoke outlet (3-5) in a through mode, a catalytic decomposer (2-3) is arranged in the preheater shell (2-2), the lower part of the catalytic decomposer (2-3) is connected with a heat exchanger (2-4) in a through mode, a tail gas outlet (2-6) of the heat exchanger (2-4) penetrates through the preheater shell (2-2) and the side wall of the preheater outer box (2-1) in sequence, is communicated with a water cooler air inlet pipe (4-2) in the high-temperature treatment cooling unit (4) through a pipeline; the bottom of the side wall of the preheater shell (2-2) is in through connection with a heating pipeline (2-7), the upper end of the heating pipeline (2-7) is in through connection with the inlet end of the catalytic decomposer (2-3), and a plurality of resistance wire honeycomb heaters (2-8) are arranged in the heating pipeline (2-7);

the high-temperature treatment cooling unit (4) is arranged inside the box body (1), and further comprises a water cooler (4-1), a negative pressure exhaust fan (4-3), a water cooler exhaust pipe (4-4), a radiator (4-5), a water storage tank (4-6), a radiator water inlet pipe (4-7), a radiator water outlet pipe (4-8), a water return pipe (4-9), a cooling fan (4-10), an overflow pipe (4-11) and an electronic water pump (4-12); the water cooler air inlet pipe (4-2) is arranged at the bottom of the water cooler (4-1) in a penetrating way, the side wall of the water cooler (4-1) is connected with a water cooler exhaust pipe (4-4) in a penetrating way, and a negative pressure exhaust fan (4-3) is connected in series in the water cooler exhaust pipe (4-4); the upper part of the side wall of the water cooler (4-1) is communicated with a water inlet of a radiator (4-5) through a radiator water inlet pipe (4-7), the side wall of the radiator (4-5) is provided with a plurality of radiating fans (4-10), a water outlet of the radiator (4-5) is communicated with a water inlet of a water storage tank (4-6) through a radiator water outlet pipe (4-8), and a water outlet of the water storage tank (4-6) is communicated with the bottom of the side wall of the water cooler (4-1) through a water return pipe (4-9); the return pipe (4-9) is connected with an electronic water pump (4-12) in series; the top wall of the water storage tank (4-6) is connected with an overflow pipe (4-11) in a penetrating way;

the negative pressure exhaust fan (4-3), the electronic water pump (4-12) and the cooling fan (4-10) are all electrically connected with an electrical control box (5), and the electrical control box (5) is arranged inside the box body (1).

2. A smoke flavor management system according to claim 1 wherein: the inner wall of the outer box (2-1) of the preheater is filled with a heat insulation layer (2-11).

3. A smoke flavor management system according to claim 1 wherein: a second temperature sensor (2-10) is fixed on the side wall of the heating pipeline (2-7), and the second temperature sensor (2-10) is arranged at the position below the resistance wire honeycomb heater (2-8) at the bottommost layer.

4. A smoke flavor management system according to claim 1 wherein: a first temperature sensor (2-9) is fixed on the side wall of the heating pipeline (2-7), and the first temperature sensor (2-9) is arranged above the resistance wire honeycomb heater (2-8) on the topmost layer.

5. A smoke flavor management system according to claim 1 wherein: the moxa smoke collecting device (9) is composed of a moxa smoke collecting shell (9-1), a moxa stick fixing frame (9-2), an inner layer (9-3) and a moxa smoke collecting and exhausting port (9-4); an inner layer (9-3) is embedded in the moxa smoke collecting shell (9-1), a moxa stick fixing frame (9-2) is embedded in the inner layer (9-3), a moxa smoke collecting air outlet (9-4) is arranged at the top of the moxa smoke collecting shell (9-1) in a penetrating mode, and the moxa smoke collecting air outlet (9-4) is connected with a preposed processing smoke inlet (3-3) in a penetrating mode.

6. A smoke flavor management system according to claim 1 wherein: the water cooler exhaust pipe (4-4) is communicated with a noise reduction air inlet (8-3) in the exhaust noise reduction filtering unit (8), and the exhaust noise reduction filtering unit (8) further comprises a noise reduction shell (8-1) and a noise reduction filter element (8-2); the noise reduction shell (8-1) is arranged above the interior of the box body (1) and behind the high-temperature treatment cooling unit (4), the noise reduction air inlet (8-3) is arranged on the bottom wall of the noise reduction shell (8-1) in a penetrating mode, and the noise reduction filter element (8-2) is arranged inside the noise reduction shell (8-1).

7. A smoke flavor management system according to claim 1 wherein: the water cooler exhaust pipe (4-4) is communicated with the inlet end of a hot air exhaust device (7), and the hot air exhaust device (7) is composed of an exhaust shell (7-1), an exhaust fan (7-2) and an outer exhaust pipe (7-3); the outer discharge shell (7-1) is fixed on the box body (1), the outer side wall of the outer discharge shell (7-1) is connected with an outer discharge pipe (7-3) in a penetrating manner, and an outer discharge fan (7-2) is connected in series in the outer discharge pipe (7-3); the outer exhaust fan (7-2) is electrically connected with the electric control box (5).

8. A smoke flavor management system according to claim 1 wherein: universal wheels (6) are fixed at four corners of the bottom of the box body (1).

9. A smoke flavor management system according to claim 1 wherein: the working principle is as follows: the moxa cigarette collecting device collects smoke generated by moxa sticks, sends the smoke into the pre-processor, enters the interior of the pre-processor shell from a pre-processing smoke inlet, is filtered by an internal pre-processing filter element, is discharged to the moxa cigarette processing unit from a pre-processing smoke outlet, enters the interior of the pre-heater shell from the pre-heater smoke inlet, enters a heating pipeline from an opening at the bottom of the pre-heater shell, is heated by a resistance wire honeycomb heater in the heating pipeline, enters the catalytic decomposer, and is discharged from a tail gas outlet after entering the heat exchanger for heat exchange, wherein the heat exchanger absorbs partial heat of the catalytically decomposed smoke, is used for heating the moxa cigarette entering the interior of the pre-heater shell and preheating; the tail gas discharged from the tail gas outlet enters a water cooler, water in the water cooler is input into a water storage tank through a water return pipe, the smoke in the water cooler is cooled by water, the cooled smoke is pumped to a water cooler exhaust pipe by a negative pressure exhaust fan and is discharged, the water in the water cooler, which is cooled by high-temperature moxa smoke, is discharged into a radiator through a radiator inlet pipe and is radiated by a cooling fan in the radiator, and the radiated water is conveyed into the water storage tank through a radiator outlet pipe, so that the cyclic utilization of cooling water is realized.

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