CN113623674B

CN113623674B - Environment-friendly energy-saving emission-reducing smoke abatement device

Info

Publication number: CN113623674B
Application number: CN202110927004.4A
Authority: CN
Inventors: 周常生
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-08-12
Filing date: 2021-08-12
Publication date: 2022-04-05
Anticipated expiration: 2041-08-12
Also published as: CN113623674A

Abstract

The invention relates to the field of environmental protection and energy conservation, and discloses an environmental protection, energy conservation and emission reduction smoke abatement device for solving the problem that the existing smoke abatement device for environmental protection has low efficiency of absorbing and exchanging heat of smoke heat when in use. The gas treated by the smoke abatement mechanism enters the heat exchange pipeline, the heat conducting component effectively conducts the heat of the gas in the heat exchange pipeline to the heat exchange liquid in the heat exchange shell, and the heat exchange efficiency is ensured.

Description

Environment-friendly energy-saving emission-reducing smoke abatement device

Technical Field

The invention relates to the technical field of environmental protection and energy conservation, in particular to an environmental protection, energy conservation, emission reduction and smoke abatement device.

Background

With the development of environmental protection industry, smoke generated by factories needs to be subjected to smoke abatement treatment before being discharged into the atmosphere, so that the pollution to the air environment is reduced.

The flue gas that the mill produced generally contains a large amount of heats, in order to realize environmental protection and energy saving, when carrying out the smoke abatement to the flue gas and handling, generally can absorb the heat in the flue gas and recycle, but at present there is the problem of inefficiency to the absorption heat transfer of heat in the flue gas.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides an environment-friendly energy-saving emission-reducing smoke abatement device.

In order to achieve the purpose, the invention adopts the following technical scheme:

an environment-friendly energy-saving emission-reducing smoke abatement device comprises a smoke abatement pipeline, a heat exchange pipeline and a smoke abatement mechanism, wherein one end of the smoke abatement pipeline is communicated with a smoke exhaust port, and the other end of the smoke abatement pipeline is provided with the heat exchange pipeline;

the heat exchange shell is internally provided with heat exchange liquid in a flowing mode and used for absorbing heat of gas in the heat exchange pipeline;

the inner wall of the heat exchange pipeline is provided with a mounting hole, the interior of the mounting hole is connected with a heat conducting component through a flexible connecting mechanism and used for conducting heat of gas in the heat exchange pipeline to heat exchange liquid in the heat exchange shell, one end of the heat conducting component extends to the interior of the heat exchange pipeline, and the other end of the heat conducting component extends to the interior of the heat exchange shell;

the heat conducting component is sleeved with the ash scraping component on one side inside the heat exchange pipeline, and the heat conducting component further comprises a stirring mechanism which is used for stirring the heat conducting component to swing in a reciprocating mode by taking the mounting hole as a midpoint, and the ash scraping component slides on the outer wall of the heat conducting component when the heat conducting component swings.

Preferably, a through hole is formed in the side surface of one end, located in the heat exchange shell, of the heat conducting component;

the heat conducting component extends to one end inside the heat exchange pipeline and is provided with a limiting component for limiting the movement of the ash scraping component.

Preferably, the toggle mechanism comprises an expansion piece arranged on the inner wall of the heat exchange pipeline, an extension piece is arranged at the movable end of the expansion piece, a toggle piece is arranged on the side surface of the extension piece, and the position of the toggle piece corresponds to the side surface of the heat conducting part.

Preferably, the outer wall of one end of the heat exchange shell is spliced with a liquid inlet pipe, and the outer wall of the other end of the heat exchange shell is spliced with a liquid outlet pipe.

Preferably, the smoke abatement mechanism comprises a water outlet component arranged on the inner wall of the smoke abatement pipeline, and the outer wall of the water outlet component is provided with a spraying component for spraying smoke abatement of smoke in the smoke abatement pipeline;

the outer wall of the water outlet part is movably provided with a smoke eliminating part for filtering smoke, and two adjacent smoke eliminating parts are connected through a first elastic part.

Preferably, the smoke abatement device also comprises a pushing mechanism used for knocking the smoke abatement component to shake;

the pushing mechanism comprises a fixing piece arranged on the inner wall of the smoke elimination pipeline, a rotating part is arranged on one side of the fixing piece close to the smoke elimination part, a movable knocking part is arranged on one side of the rotating part close to the smoke elimination part, a fixed knocking part is arranged on one side of the smoke elimination part close to the fixing piece, and the position of the fixed knocking part corresponds to that of the movable knocking part;

and the driving component is used for driving the rotating component to rotate.

Preferably, a sewage discharge mechanism is arranged in the smoke elimination pipeline at a position corresponding to the water outlet component and used for collecting and discharging the sprayed sewage.

Preferably, the sewage discharging mechanism comprises a sewage collecting groove arranged on the inner wall of the smoke eliminating pipeline, and a sewage discharging pipe is arranged on the outer wall of the sewage collecting groove;

one end of the smoke elimination component far away from the water outlet component extends to the interior of the sewage collection tank.

Preferably, the flexible connecting mechanism comprises a second elastic component arranged on the inner wall of the mounting hole and used for installing the heat conducting component in the mounting hole;

and the jointing part is used for jointing and sealing the gap between the inner wall of the mounting hole and the heat-conducting part.

Preferably, one end of the interior of the heat exchange pipe, which is far away from the smoke abatement pipe, is provided with a filtering component for further filtering the gas.

The invention has the beneficial effects that:

gas after smoke elimination mechanism handles gets into in the heat transfer pipeline, and heat conduction part effectively conducts the heat transfer liquid in the heat transfer pipeline internal gas to the heat transfer casing, guarantees heat exchange efficiency, and toggle mechanism drives the reciprocal luffing motion of heat conduction part during the use, scrapes the ash part and slides at heat conduction part outer wall this moment to scrape the dust of heat conduction part outer wall adhesion and fall, thereby improve heat conduction part's heat conduction effect, the part that heat conduction part is located the heat transfer casing simultaneously can stir heat transfer liquid, improves heat exchange efficiency.

Drawings

FIG. 1 is a schematic structural diagram of an environment-friendly, energy-saving, emission-reducing and smoke-eliminating device provided by the embodiment of the invention;

FIG. 2 is a schematic structural diagram of the environment-friendly, energy-saving, emission-reducing and smoke-eliminating device provided by the embodiment of the invention at the position of FIG. 1A;

FIG. 3 is a schematic view of a partial structure of FIG. 1 of an environment-friendly, energy-saving, emission-reducing and smoke-eliminating device provided by an embodiment of the invention;

fig. 4 is a schematic structural diagram of the environment-friendly, energy-saving, emission-reducing and smoke-eliminating device provided by the embodiment of the invention at the position of fig. 3B.

In the figure: 1-smoke eliminating pipeline, 2-heat exchanging pipeline, 3-pollution discharging mechanism, 31-pollution collecting groove, 32-pollution discharging pipe, 4-smoke eliminating mechanism, 41-smoke eliminating component, 42-water outlet component, 43-spraying component, 44-first elastic component, 5-pushing mechanism, 51-movable knocking component, 52-rotating component, 53-fixing component, 54-driving component, 55-fixed knocking component, 6-stirring mechanism, 61-telescopic component, 62-extending component, 63-stirring component, 7-heat exchanging shell, 8-heat conducting component, 9-ash scraping component, 10-perforation, 11-filtering component, 12-limiting component, 13-mounting hole, 14-flexible connecting mechanism, 141-second elastic component, 32-pollution discharging pipe, 4-smoke eliminating mechanism, 6-smoke eliminating component, 42-water outlet component, 43-spraying component, 44-first elastic component, 5-pushing mechanism, 51-movable knocking component, 52-rotating component, 53-fixing component, 54-driving component, 55-fixed knocking component, 6-stirring component, 61-telescopic component, 62-extending component, 63-stirring component, 7-heat exchanging shell, 8-heat conducting component, 9-ash scraping component, 10-perforation, 11-filtering component, 12-limiting component, 13-mounting hole, 14-flexible connecting mechanism, 141-second elastic component, and a second elastic component, 142-engagement member.

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.

Referring to fig. 1-4, an environment-friendly, energy-saving and emission-reducing smoke abatement device comprises a smoke abatement pipeline 1, one end of which is communicated with a smoke exhaust port, and a heat exchange pipeline 2 and a smoke abatement mechanism 4, wherein the smoke abatement pipeline 1 is used for performing smoke abatement on smoke entering the smoke abatement pipeline 1;

a heat exchange shell 7 with heat exchange liquid flowing inside is used for absorbing the heat of the gas in the heat exchange pipeline 2;

a mounting hole 13 is formed in the inner wall of the heat exchange pipeline 2, the interior of the mounting hole 13 is connected with a heat conducting component 8 through a flexible connecting mechanism 14 and used for conducting heat of gas in the heat exchange pipeline 2 to heat exchange liquid in the heat exchange shell 7, one end of the heat conducting component 8 extends into the heat exchange pipeline 2, and the other end of the heat conducting component extends into the heat exchange shell 7;

one side that heat-conducting part 8 is located heat transfer pipeline 2 inside has cup jointed and has scraped grey part 9, still include toggle mechanism 6, be used for stirring heat-conducting part 8 and use mounting hole 13 as the reciprocal swing of midpoint, scrape grey part 9 when heat-conducting part 8 swings and slide at heat-conducting part 8's outer wall, gas after smoke elimination mechanism 4 handles gets into in heat transfer pipeline 2, heat-conducting part 8 effectively conducts the heat of gas in the heat transfer pipeline 2 to the heat-transfer liquid in heat transfer casing 7, guarantee heat exchange efficiency, toggle mechanism 6 drives the reciprocal luffing motion of heat-conducting part 8 during the use, scrape grey part 9 this moment and slide at heat-conducting part 8 outer wall, and scrape the dust of heat-conducting part 8 outer wall adhesion, thereby improve heat-conducting part 8's heat conduction effect, the part 8 that is located in heat transfer casing 7 can stir heat transfer liquid simultaneously, improve heat exchange efficiency.

As a preferred embodiment of the present invention, a through hole 10 is formed in one side surface of the heat conducting member 8 located in the heat exchange housing 7;

one end of the heat conducting component 8 extending into the heat exchange pipeline 2 is provided with a limiting component 12 for limiting the movement of the ash scraping component 9, and when the heat exchange liquid is stirred by the heat conducting component 8, part of the heat exchange liquid passes through the through hole 10, so that the stirring efficiency of the heat exchange liquid is improved.

Referring to fig. 1 and 3, as a preferred embodiment of the present invention, the toggle mechanism 6 includes an extensible member 61 installed on the inner wall of the heat exchange pipe 2, an extending member 62 is installed at the movable end of the extensible member 61, a toggle member 63 is installed on the side surface of the extending member 62, the position of the toggle member 63 corresponds to the side surface of the heat conducting member 8, the extensible member 61 can drive the extending member 62 to lift up and down reciprocally, and thus the toggle member 63 can drive one end of the heat conducting member 8 to lift up and down reciprocally.

As a preferred embodiment of the present invention, the extensible member 61 is an electric extensible rod, a hydraulic cylinder, or the like, and in this embodiment, the extensible member 61 is preferably an electric extensible rod.

As a preferred embodiment of the invention, the outer wall of one end of the heat exchange shell 7 is inserted with a liquid inlet pipe, and the outer wall of the other end of the heat exchange shell 7 is inserted with a liquid outlet pipe.

Referring to fig. 1, as a preferred embodiment of the present invention, the smoke abatement mechanism 4 includes a water outlet component 42 installed on the inner wall of the smoke abatement pipe 1, and a spraying component 43 is installed on the outer wall of the water outlet component 42 for spraying smoke abatement in the smoke abatement pipe 1;

the outer wall of the water outlet component 42 is movably provided with a smoke abatement component 41 for filtering smoke, and two adjacent smoke abatement components 41 are connected through a first elastic component 44.

In a preferred embodiment of the present invention, the spray member 43 is an atomizing head, a nozzle hole, or the like, and in this embodiment, the spray member 43 is preferably an atomizing head.

Referring to fig. 2, as a preferred embodiment of the present invention, the present invention further comprises a pushing mechanism 5 for knocking the smoke abatement component 41 to shake;

the pushing mechanism 5 comprises a fixing part 53 arranged on the inner wall of the smoke abatement pipe 1, a rotating part 52 is arranged on one side of the fixing part 53 close to the smoke abatement part 41, a movable knocking part 51 is arranged on one side of the rotating part 52 close to the smoke abatement part 41, a fixed knocking part 55 is arranged on one side of the smoke abatement part 41 close to the fixing part 53, and the position of the fixed knocking part 55 corresponds to the position of the movable knocking part 51;

the driving part 54 is used for driving the rotating part 52 to rotate, the driving part 54 drives the rotating part 52 to rotate, so that the movable knocking part 51 can knock the fixed knocking part 55 in a reciprocating mode, the shaking of the smoke abatement part 41 is promoted, dust attached to the smoke abatement part 41 can be effectively shaken off, and along with the rotation of the rotating part 52, when the rotating part 52 is overlapped with or staggered with the fixed part 53, the flow rate of smoke in the smoke abatement pipeline 1 is changed due to the change of the airflow blocking area in the smoke abatement pipeline 1, the blowing force of wind power on the smoke abatement part 41 is changed, when the rotating part 52 is staggered with the fixed part 53, the smoke abatement part 41 is subjected to large wind power and large inclination angle, and when the rotating part 52 is overlapped with the fixed part 53, the smoke abatement part 41 is subjected to small wind power and small inclination angle, and the shaking of the smoke abatement part 41 is promoted.

In a preferred embodiment of the present invention, the fixed striking member 55 and the movable striking member 51 are made of rubber, silicone, or the like, and in this embodiment, the fixed striking member 55 and the movable striking member 51 are made of rubber.

In a preferred embodiment of the present invention, a drainage mechanism 3 is disposed inside the smoke abatement pipe 1 at a position corresponding to the water outlet component 42 for collecting and draining the sprayed sewage.

As a preferred embodiment of the invention, the sewage draining mechanism 3 comprises a sewage collecting tank 31 arranged on the inner wall of the smoke abatement pipeline 1, and a sewage draining pipe 32 is arranged on the outer wall of the sewage collecting tank 31;

one end of the smoke abatement component 41 far away from the water outlet component 42 extends to the interior of the sewage collecting tank 31, and the sewage collecting tank 31 collects the sewage generated by spraying and discharges the sewage through the sewage discharge pipe 32.

As a preferred embodiment of the present invention, the flexible coupling mechanism 14 includes a second elastic member 141 mounted on an inner wall of the mounting hole 13 for mounting the heat conductive member 8 in the mounting hole 13;

further, an engaging member 142 is included for engaging and sealing a gap between the inner wall of the mounting hole 13 and the heat conductive member 8.

In a preferred embodiment of the present invention, the second elastic member 141 is a spring, a rubber string, or the like, and in this embodiment, the second elastic member 141 is preferably a spring.

As a preferred embodiment of the present invention, a filter component 11 is installed at one end of the inside of the heat exchange pipe 2 far away from the smoke abatement pipe 1 for further filtering the gas.

The gas treated by the smoke abatement mechanism 4 enters the heat exchange pipeline 2, the heat conducting component 8 effectively conducts the heat of the gas in the heat exchange pipeline 2 to the heat exchange liquid in the heat exchange shell 7, so that the heat exchange efficiency is ensured, when the heat exchange device is used, the stirring mechanism 6 drives the heat conducting component 8 to reciprocate and swing up and down, the dust scraping component 9 slides on the outer wall of the heat conducting component 8 at the moment, and dust adhered to the outer wall of the heat conducting component 8 is scraped off, so that the heat conducting effect of the heat conducting component 8 is improved, and meanwhile, the part of the heat conducting component 8, which is positioned in the heat exchange shell 7, can stir the heat exchange liquid, so that the heat exchange efficiency is improved; when the heat conduction component 8 stirs the heat exchange liquid, part of the heat exchange liquid passes through the through holes 10, so that the stirring efficiency of the heat exchange liquid is improved; the extension part 62 can be driven by the telescopic part 61 to lift up and down in a reciprocating manner, so that one end of the heat conducting part 8 is driven by the stirring part 63 to lift up and down and swing in a reciprocating manner; the driving part 54 drives the rotating part 52 to rotate, so that the movable knocking part 51 can knock the fixed knocking part 55 to and fro to promote the shaking of the smoke abatement part 41, and can effectively shake off dust attached to the smoke abatement part 41, and along with the rotation of the rotating part 52, when the rotating part 52 is overlapped with or staggered with the fixed part 53, the flow rate of smoke in the smoke abatement pipeline 1 is changed due to the change of the airflow blocking area in the smoke abatement pipeline 1, so that the blowing force of wind power on the smoke abatement part 41 is changed, when the rotating part 52 is staggered with the fixed part 53, the smoke abatement part 41 is subjected to large wind power and large inclination angle, and when the rotating part 52 is overlapped with the fixed part 53, the smoke abatement part 41 is subjected to small wind power and small inclination angle to promote the shaking of the smoke abatement part 41; the sewage collecting tank 31 collects sewage generated by spraying and discharges the sewage through a sewage discharge pipe 32.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims

1. An environment-friendly energy-saving emission-reducing smoke abatement device comprises a smoke abatement pipeline, one end of which is communicated with a smoke exhaust port, and the other end of the smoke abatement pipeline is provided with a heat exchange pipeline;

the heat-conducting component is sleeved with the ash scraping component at one side positioned in the heat exchange pipeline, and the heat-conducting component also comprises a stirring mechanism which is used for stirring the heat-conducting component to swing in a reciprocating mode by taking the mounting hole as a midpoint, and the ash scraping component slides on the outer wall of the heat-conducting component when the heat-conducting component swings;

the smoke abatement mechanism comprises a water outlet component arranged on the inner wall of the smoke abatement pipeline, and the outer wall of the water outlet component is provided with a spraying component for spraying smoke abatement of smoke in the smoke abatement pipeline;

the outer wall of the water outlet part is movably provided with a smoke eliminating part for filtering smoke, and two adjacent smoke eliminating parts are connected through a first elastic part;

the pushing mechanism is used for knocking the smoke eliminating component to shake;

and the driving component is used for driving the rotating component to rotate.

2. The environment-friendly energy-saving emission-reducing smoke abatement device of claim 1, wherein the heat conducting component is provided with a through hole on one end side surface in the heat exchange shell;

3. The environment-friendly, energy-saving, emission-reducing and smoke-eliminating device as claimed in claim 1, wherein the toggle mechanism comprises a telescopic member mounted on the inner wall of the heat exchange pipeline, an extension member is mounted at the movable end of the telescopic member, a toggle member is mounted on the side surface of the extension member, and the toggle member is located corresponding to the side surface of the heat conducting member.

4. The environment-friendly energy-saving emission-reducing smoke abatement device of claim 1, wherein the outer wall of one end of the heat exchange shell is inserted with a liquid inlet pipe, and the outer wall of the other end of the heat exchange shell is inserted with a liquid outlet pipe.

5. The environment-friendly energy-saving emission-reducing smoke abatement device of claim 1, wherein a pollution discharge mechanism is arranged in the smoke abatement pipeline at a position corresponding to the water outlet component, and is used for collecting and discharging the sprayed sewage.

6. The environment-friendly energy-saving emission-reducing smoke abatement device of claim 5, wherein the pollution discharge mechanism comprises a pollution collection tank arranged on the inner wall of the smoke abatement pipeline, and a pollution discharge pipe is arranged on the outer wall of the pollution collection tank;

7. The environment-friendly, energy-saving, emission-reducing and smoke-eliminating device as claimed in claim 1, wherein the flexible connecting mechanism comprises a second elastic component mounted on the inner wall of the mounting hole for mounting the heat conducting component in the mounting hole;

8. The environment-friendly, energy-saving, emission-reducing and smoke-eliminating device as claimed in claim 1, wherein a filtering component is installed at one end of the interior of the heat exchange pipe far away from the smoke-eliminating pipe for further filtering gas.