CN111174215A - Fume extractor for waste incineration power generation - Google Patents

Abstract

The invention belongs to the technical field of garbage treatment, and particularly relates to a smoke exhaust device for garbage incineration power generation, aiming at the problem that an air filtering mechanism of a traditional smoke exhaust device needs manual adjustment or cleaning, the smoke exhaust device comprises a water storage tank, a waste heat recovery tank and a gas transmission pipeline with a cone-shaped end arranged at the end part, wherein an arc-shaped installation end is welded at one side of the gas transmission pipeline close to the water storage tank, the arc-shaped installation end and the gas transmission pipeline are both rotatably connected with the same fan blade roller through a bearing, and installation frames are welded at two sides of the top end of the gas transmission pipeline. According to the invention, through the arranged fan blade rollers and the blades, in the smoke exhaust process, the blades can be blown to drive the fan blade rollers to rotate, and the driven rollers are driven to rotate to drive the filter screen to rotate through the sequential speed reduction transmission of the transmission belt, the driven disc, the toothed ring and the transmission toothed disc, and the water storage tank is used for cleaning the surface of the filter screen, so that the filtering effect of the filter screen is ensured.

Description

Fume extractor for waste incineration power generation

Technical Field

The invention relates to the technical field of garbage treatment, in particular to a smoke exhaust device for garbage incineration power generation.

Background

The waste incineration is a process of subjecting waste to oxidation at a high temperature by appropriate thermal decomposition, combustion, melting, or other reaction to reduce the volume of the waste to form a residue or a molten solid substance. The waste incineration method is one of the main methods for treating urban waste because the waste is treated by the incineration method, the reduction effect is obvious, the land is saved, various pathogens can be killed, and toxic and harmful substances are converted into harmless substances. Fume extractors are often used in waste incineration processes.

For example, chinese patent application No. CN201820672497.5 discloses a smoke exhaust device of a garbage incinerator, which comprises a furnace body, wherein a smoke exhaust pipe is arranged at the upper end of the furnace body, a fixing plate is fixedly connected to the upper end of the furnace body, the smoke exhaust pipe penetrates through the fixing plate, an installation plate is arranged above the fixing plate, a slot is arranged on the installation plate in a penetrating manner, the smoke exhaust pipe penetrates through the slot, supporting blocks are fixedly connected to both sides of the lower end of the installation plate, the supporting blocks are in an L-shaped structure, and a first limit ring corresponding to the supporting blocks is arranged at the upper end of the fixing. However, in the above patent, the method of replacing the old filter element with the new filter element in time by rotating still needs manual operation at regular intervals, and the inevitable filtering effect of the filter element is increasingly poor in the using process, so that the good filtering effect cannot be maintained in real time, and thus certain limitations exist.

Disclosure of Invention

The invention provides a waste incineration power generation smoke exhaust device based on the technical problem that an air filtering mechanism of a traditional smoke exhaust device needs manual adjustment or cleaning.

The invention provides a smoke exhaust device for waste incineration power generation, which comprises a water storage tank, a waste heat recovery tank and a gas transmission pipeline, wherein the end part of the gas transmission pipeline is provided with a conical end, one side of the gas transmission pipeline, which is close to the water storage tank, is welded with an arc-shaped mounting end, the arc-shaped mounting end and the gas transmission pipeline are both rotatably connected with the same fan blade roller through bearings, two sides of the top end of the gas transmission pipeline are welded with mounting frames, the mounting frames and the water storage tank are respectively rotatably connected with driven rollers through bearings, one side of the water storage tank, which is close to the driven rollers, is rotatably connected with a fixed shaft through bearings, the circumferential outer walls of the fan blade rollers are welded with blade plates distributed at equal intervals, the outer walls of the fixed shaft and the driven rollers are respectively in key connection with a driven plate and a transmission fluted disc, the fan blade rollers and the driven plate, the waste heat recovery mechanism is installed to the inner wall of waste heat recovery jar, and the middle-end inner wall welding of waste heat recovery jar has the arc to encircle the end.

Preferably, one side of the water storage tank is provided with a mounting groove, and the inner wall of the mounting groove is fixed with an ultrasonic generator through a bolt.

Preferably, one end of the water storage tank is connected with a water changing pipe, the two sides of the waste heat recovery tank are respectively connected with a water supply pipe and a water discharge pipe, and one ends of the water changing pipe, the water supply pipe and the water discharge pipe are respectively connected with a valve through threads.

Preferably, the filter screen is connected with the gas transmission pipeline in a sliding mode, a slot is formed in one end, close to the filter screen, of the gas transmission pipeline, and a filtering inserting plate is inserted into the inner wall of the slot.

Preferably, an air supply pipe penetrates through one end of the air delivery pipeline, a spiral pipe is arranged at one end of the air supply pipe, which is positioned inside the air delivery pipeline, and the output end of the air supply pipe is connected with the garbage incinerator.

Preferably, the waste heat recovery mechanism comprises a spiral heat exchange tube arranged inside the waste heat recovery tank, and one end of the spiral heat exchange tube is connected with the conical head end.

Preferably, the other end of the spiral heat exchange tube is connected with an air outlet tube, and the air outlet tube is connected with an external purification mechanism.

Preferably, the outer wall of the waste heat recovery tank is fixedly provided with an insulating layer.

Preferably, the inner wall of the waste heat recovery tank is rotatably connected with a driving rod, one end of the driving rod is welded with a paddle, and the other end of the driving rod is connected with a rotating motor through a coupler.

Preferably, the connection between the waste heat recovery tank and the driving rod is provided with a rotary sealing element, and the rotary sealing element consists of a slip ring made of filled polytetrafluoroethylene and a rubber O-shaped ring for providing elasticity.

The beneficial effects of the invention are as follows:

1. the fume extractor for the waste incineration power generation is provided with the blade plates through the blade rollers, so that the blade plates can be blown in the fume extraction process, the blade rollers are driven to rotate, the driven rollers are driven to rotate through the sequential speed reduction transmission of the driving belt, the driven plate, the toothed ring and the driving fluted disc, the filter screen is driven to rotate, the cleaning of the surface of the filter screen is realized through the water storage tank, and the filtering effect of the filter screen is ensured.

2. Smoke exhaust device for msw incineration electricity generation through the supersonic generator who sets up, has the benefit that improves the cleaning performance, through the driven plate that sets up, ring gear, the speed reduction transmission in proper order of transmission fluted disc, can improve the moment of torsion that the fan blade roller provided, reach laborsaving purpose to make the filter screen more easily driven.

3. Fume extractor for waste incineration power generation through air supply pipe and the spiral pipe that sets up, can utilize the heat that carries in the flue gas, heats the air that supplies in the waste incinerator to realize preliminary waste heat utilization.

4. Waste incineration is fume extractor for electricity generation, through the spiral heat exchange tube that sets up, be convenient for further carry out heat transfer, recovery processing to the heat that carries in the flue gas, through the paddle cooperation arc ring end that sets up, heat transfer medium is bloated to arc ring end, and then realizes the reposition of redundant personnel under the effect of arc ring end, is convenient for effectively strengthen the convection current of heat transfer medium in the waste heat recovery jar to reach the purpose that improves the heat transfer effect.

The parts of the device not involved are the same as or can be implemented using prior art.

Drawings

FIG. 1 is a schematic view of the whole structure of a smoke exhaust device for waste incineration power generation according to the present invention;

FIG. 2 is a schematic view of a partial three-dimensional structure of a gas transmission pipeline of a smoke exhaust device for waste incineration power generation according to the present invention;

FIG. 3 is a schematic view of a half-sectional structure of a fan blade roller of a smoke exhaust device for waste incineration power generation according to the present invention;

FIG. 4 is a schematic perspective view of a transmission gear plate of the smoke exhaust device for waste incineration power generation according to the present invention;

fig. 5 is a schematic cross-sectional view of a waste heat recovery tank of the smoke exhaust device for waste incineration power generation according to the present invention.

In the figure: the device comprises a gas transmission pipeline 1, a blade plate 2, a blade roller 3, an arc-shaped mounting end 4, a transmission belt 5, an ultrasonic generator 6, a water storage tank 7, a driven plate 8, a fixed shaft 9, a transmission fluted disc 10, a water changing pipe 11, a driven roller 12, a filter screen 13, an air supply pipe 14, a spiral pipe 15, a cone end 16, a spiral heat exchange pipe 17, a heat preservation layer 18, a drain pipe 19, a waste heat recovery tank 20, an arc-shaped ring end 21, an air outlet pipe 22, a water supply pipe 23, a blade 24, a rotary sealing gasket 25, a rotary motor 26, a filter plugboard 27 and.

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.

In the description of the present invention, 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 the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1-5, a smoke exhaust device for waste incineration power generation comprises a water storage tank 7, a waste heat recovery tank 20 and a gas transmission pipeline 1 with a cone end 16 at the end, wherein an arc-shaped installation end 4 is welded at one side of the gas transmission pipeline 1 close to the water storage tank 7, the arc-shaped installation end 4 and the gas transmission pipeline 1 are both rotatably connected with a same fan blade roller 3 through bearings, installation frames 28 are welded at two sides of the top end of the gas transmission pipeline 1, driven rollers 12 are respectively rotatably connected with the installation frames 28 and the water storage tank 7 through bearings, a fixed shaft 9 is rotatably connected at one side of the water storage tank 7 close to the driven rollers 12 through bearings, blades 2 distributed equidistantly are welded on the circumferential outer wall of the fan blade roller 3, the outer walls of the fixed shaft 9 and the driven rollers 12 are respectively in key connection with a driven plate 8 and a transmission fluted disc 10, the fan blade roller 3 and the, the outer wall of one end of the fixed shaft 9 is in keyed connection with a gear ring meshed with the transmission gear disc 10, the inner wall of the waste heat recovery tank 20 is provided with a waste heat recovery mechanism, and the inner wall of the middle end of the waste heat recovery tank 20 is welded with an arc-shaped ring end 21.

In the invention, one side of the water storage tank 7 is provided with a mounting groove, and the inner wall of the mounting groove is fixed with the ultrasonic generator 6 through a bolt.

Wherein, the one end of water storage tank 7 is connected with trades water pipe 11, and the both sides of waste heat recovery jar 20 are connected with delivery pipe 23 and drain pipe 19 respectively, trades water pipe 11, delivery pipe 23 and the one end of drain pipe 19 and all has the valve through threaded connection.

Wherein, the filter screen 13 is connected with the gas transmission pipeline 1 in a sliding way, a slot is arranged at one end of the gas transmission pipeline 1 close to the filter screen 13, and a filtering plugboard 27 is inserted into the inner wall of the slot.

Wherein, an air supply pipe 14 penetrates through one end of the air transmission pipeline 1, a spiral pipe 15 is arranged at one end of the air supply pipe 14, which is positioned inside the air transmission pipeline 1, and the output end of the air supply pipe 14 is connected with the garbage incinerator.

The waste heat recovery mechanism comprises a spiral heat exchange tube 17 arranged inside the waste heat recovery tank 20, and one end of the spiral heat exchange tube 17 is connected with the conical head end 16.

Wherein, the other end of the spiral heat exchange tube 17 is connected with an air outlet tube 22, and the air outlet tube 22 is connected with an external purification mechanism.

Wherein, the outer wall of the waste heat recovery tank 20 is fixedly provided with an insulating layer 18.

Wherein, the inner wall of waste heat recovery jar 20 rotates and is connected with the actuating lever, and the welding of the one end of actuating lever has paddle 24, and the other end of actuating lever has rotating electrical machines 26 through the coupling joint.

Wherein, the connection of the waste heat recovery tank 20 and the driving rod is provided with a rotary sealing element 25, and the rotary sealing element 25 consists of a slip ring made of filled polytetrafluoroethylene and a rubber O-shaped ring for providing elasticity.

When the invention is used: flue gas generated by waste incineration enters the gas transmission pipeline 1, and then blows the blade plate 2 to drive the blade roller 3 to rotate, and under the sequential speed reduction transmission of the transmission belt 5, the driven disc 8, the toothed ring and the transmission toothed disc 10, the driven roller 12 is driven to rotate, and then the filter screen 13 is driven to rotate, the filter screen 13 enters the water storage tank 7, the filter screen 13 is effectively cleaned by matching with the arrangement of the ultrasonic generator 6, so as to ensure the filtering effect of the filter screen 13, and the torque provided by the blade roller 3 is improved due to the speed reduction transmission of the driven disc 8, the toothed ring and the transmission toothed disc 10, so that the aim of saving labor is fulfilled, and the filter screen 13 is driven more easily; through the arrangement of the air supply pipe 14 and the spiral pipe 15, the air supplied into the waste incinerator is heated by utilizing the heat carried in the flue gas, so that preliminary waste heat utilization is realized, meanwhile, the flue gas enters the spiral heat exchange pipe 17 after being filtered by the filtering plugboard 27, and the heat carried in the flue gas is further subjected to heat exchange and recovery treatment; the rotating motor 26 is started to drive the blades 24 to rotate, the heat exchange medium is blown to the arc-shaped ring end 21, the flow distribution is realized under the action of the arc-shaped ring end 21, the convection of the heat exchange medium in the waste heat recovery tank 20 is effectively enhanced, and the heat exchange effect is improved.

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 considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (10)

1. The utility model provides a fume extractor for msw incineration power generation, includes water storage tank (7), waste heat recovery jar (20) and tip and sets up to the gas transmission pipeline (1) of awl head end (16), its characterized in that, one side welding that gas transmission pipeline (1) is close to water storage tank (7) has arc installation end (4), and arc installation end (4) and gas transmission pipeline (1) all are connected with same fan blade roller (3) through the bearing rotation, the top both sides welding of gas transmission pipeline (1) has mounting bracket (28), and mounting bracket (28) and water storage tank (7) are connected with driven voller (12) through the bearing rotation respectively, one side that water storage tank (7) is close to driven voller (12) is connected with fixed axle (9) through the bearing rotation, the circumference outer wall welding of fan blade roller (3) has vanes (2) that the equidistance distributes, the outer wall key-type connection respectively of fixed axle (9) and driven voller (12) has driven plate (8) and transmission, fan blade roller (3) have cup jointed same drive belt (5), two with driven plate (8) same filter screen (13) has been cup jointed in driven voller (12), the one end outer wall key connection of fixed axle (9) has the ring gear with transmission fluted disc (10) engaged with, waste heat recovery mechanism is installed to the inner wall of waste heat recovery jar (20), and the middle-end inner wall welding of waste heat recovery jar (20) has arc ring end (21).

2. A smoke exhaust device for waste incineration power generation according to claim 1, wherein one side of the water storage tank (7) is provided with a mounting groove, and the inner wall of the mounting groove is fixed with an ultrasonic generator (6) through a bolt.

3. The fume extractor as claimed in claim 1, wherein one end of the water storage tank (7) is connected with a water changing pipe (11), two sides of the waste heat recovery tank (20) are respectively connected with a water supply pipe (23) and a water discharge pipe (19), and one ends of the water changing pipe (11), the water supply pipe (23) and the water discharge pipe (19) are all connected with valves through threads.

4. A smoke exhaust device for waste incineration power generation according to claim 2, wherein the filter screen (13) is slidably connected with the gas transmission pipeline (1), and a slot is formed at one end of the gas transmission pipeline (1) close to the filter screen (13), and a filter inserting plate (27) is inserted into the inner wall of the slot.

5. A smoke exhaust device for waste incineration power generation according to claim 1, wherein an air supply pipe (14) is penetrated through one end of the air delivery pipe (1), and one end of the air supply pipe (14) located inside the air delivery pipe (1) is provided as a spiral pipe (15), and the output end of the air supply pipe (14) is connected with the waste incinerator.

6. A waste incineration power generation smoke evacuation device according to claim 1, wherein the waste heat recovery mechanism comprises a spiral heat exchange tube (17) disposed inside the waste heat recovery tank (20), and one end of the spiral heat exchange tube (17) is connected with the conical end (16).

7. A smoke exhaust device for waste incineration power generation according to claim 6, wherein the other end of the spiral heat exchange tube (17) is connected with an air outlet tube (22), and the air outlet tube (22) is connected with an external purification mechanism.

8. The fume extractor for waste incineration power generation as claimed in claim 1, wherein an insulating layer (18) is fixedly mounted on the outer wall of the waste heat recovery tank (20).

9. The fume extractor for the waste incineration power generation as claimed in claim 1, wherein the inner wall of the waste heat recovery tank (20) is rotatably connected with a driving rod, one end of the driving rod is welded with a paddle (24), and the other end of the driving rod is connected with a rotating motor (26) through a coupling.

10. The fume extractor for waste incineration power generation as claimed in claim 9, wherein the connection of the waste heat recovery tank (20) and the driving rod is provided with a rotary sealing member (25), and the rotary sealing member (25) is composed of a slip ring made of filled polytetrafluoroethylene and a rubber O-ring providing elasticity.

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