CN221146554U - Organic waste gas heat accumulation type incinerator - Google Patents

Abstract

The utility model provides an organic waste gas heat accumulating type incineration device, which relates to the technical field of waste gas treatment and comprises a furnace body, a heater arranged on the furnace body, heat accumulating chambers and combustion chambers distributed in the furnace body, and a rotary valve connected below the heat accumulating chambers, wherein a gas outlet of the rotary valve is connected with a dust removing box, a plurality of groups of dust covers are arranged in the dust removing box, and the dust covers are arrayed along the flowing direction of waste gas. The utility model filters the waste gas through the dust removing box and then discharges the waste gas so as to reduce the large particulate matters in the waste gas. The dust excluding hood is provided with the multiunit, and waste gas passes through multiple dust excluding hood, improves the filter effect.

Description

Organic waste gas heat accumulation type incinerator

Technical Field

The utility model relates to the technical field of waste gas treatment, in particular to an organic waste gas heat accumulating type incineration device.

Background

After being produced from the industrial process, the organic waste gas or the polluted gas is collected through a pipeline system and is conveyed to a heat accumulating type catalytic incineration device. After the exhaust gas enters the regenerative catalytic incinerator, the exhaust gas is preheated to a temperature high enough to start the catalytic combustion reaction. In the treatment of exhaust gases, the unfiltered exhaust gases may contain particulates, chemicals or gaseous pollutants which may have an effect on the surrounding air quality.

Disclosure of utility model

The utility model aims to: the present utility model is directed to the above drawbacks and provides an organic waste gas heat accumulating type incinerator to solve the above problems of the prior art.

The technical scheme is as follows: the utility model provides an organic waste gas heat accumulation formula incineration device, includes the furnace body, set up in heater on the furnace body, distribute in regenerator and combustion chamber in the furnace body, and connect in the rotary valve of regenerator below, the gas outlet of rotary valve is connected with the dust removal case, the dust removal incasement portion is equipped with multiunit dust cover, the dust cover is arranged along waste gas flow direction array.

In a further embodiment, a connecting frame is arranged outside the dust cover, and the connecting frame is fixedly connected with the inside of the dust removal box.

In a further embodiment, the dust cover is composed of a plurality of groups of dust removing nets, the longitudinal section of each dust removing net is polygonal, a plurality of groups of dust collecting spaces are formed at the ports of each dust removing net, and the dust removing nets are distributed in an array along the length direction of the connecting frame.

In a further embodiment, the dust collection box is movably connected with dust collection covers, and the dust collection covers are distributed between two adjacent dust collection covers.

In a further embodiment, a handle is arranged at the end part of the dust collection cover and can be drawn and moved with the dust collection box.

In a further embodiment, the dust screen is made of a superalloy or a ceramic material.

The beneficial effects are that: the utility model provides an organic waste gas heat accumulating type incinerator, which is characterized in that a dust removing box at an air outlet of a rotary valve is connected, so that treated waste gas is filtered and then discharged, and the influence of large particles in the waste gas on the environment is reduced. The dust removal box is internally provided with a plurality of groups of dust removal hoods and is arranged according to the flowing direction of the waste gas, so that the waste gas is fully filtered through the plurality of dust removal hoods, the dust removal hoods are formed by combining the plurality of groups of dust removal nets, and the dust removal nets are of polygonal structures, so that the filtering surface is increased, and the filtering effect is improved.

Drawings

Fig. 1 is an overall construction diagram of the present utility model.

Fig. 2 is a schematic diagram of the overall structure of the interior of the dust-removing box in the utility model.

The reference numerals in the drawings are as follows: furnace body 1, heater 2, regenerator 3, combustion chamber 4, rotary valve 5, dust box 6, dust excluding hood 601, dust removing net 6011, dust collecting space 6012, connecting frame 602, dust excluding hood 603, handle 604.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present utility model. It will be apparent, however, to one skilled in the art that the utility model may be practiced without one or more of these details. In other instances, well-known features have not been described in detail in order to avoid obscuring the utility model.

Referring to fig. 1-2, the dust box housing portion is not shown. The utility model provides an organic waste gas heat accumulating type incinerator which comprises a incinerator body 1, a heater 2 arranged on the incinerator body 1, heat accumulating chambers 3 and combustion chambers 4 distributed in the incinerator body 1, and rotary valves 5 connected below the heat accumulating chambers 3, wherein dust collection boxes 6 are connected to air outlets of the rotary valves 5, the dust collection boxes 6 are communicated with the rotary valves 5 through connecting pipelines, a plurality of groups of dust collection covers 601 are arranged inside the dust collection boxes 6, and the dust collection covers 601 are arrayed along the flowing direction of waste gas. When the waste gas is used, waste gas is fed into the furnace body 1 through the air inlet of the rotary valve 5, the waste gas enters the combustion chamber 4, meanwhile, the heater 2 works, after the waste gas is heated to the incineration temperature, the waste gas passes through the regenerator 3 again, enters the dust removal box 6 through the air outlet of the rotary valve 5, and after passing through the dust removal cover 601, large particles in the waste gas are filtered, so that the waste gas is discharged after being filtered.

The dust excluding hood 601 is provided with a connecting frame 602 outside, and the connecting frame 602 is fixedly connected with the inside of the dust removing box 6. The dust removal cover 601 is sequentially fixed in the dust removal box 6 through the connecting frame 602, and when waste gas enters the dust removal box 6, the waste gas is discharged through the multiple dust removal covers 601, so that the influence on the external environment is reduced. The dust excluding hood 601 is composed of a plurality of groups of dust removing nets 6011, the longitudinal section of the dust removing nets 6011 is polygonal, a plurality of groups of dust collecting spaces 6012 are formed at the ports of the dust removing nets 6011, and the dust removing nets 6011 are distributed in an array along the length direction of the connecting frame 602. The dust removing net 6011 is distributed in a square table shape array with hollow inside, and the filtering surface is enlarged to be fully contacted with the waste gas so as to improve the filtering effect. After the exhaust gas is discharged through the heat accumulator, the cooling work is finished, but when the heat accumulator has a problem, the temperature of the exhaust gas is not reduced in time, and meanwhile, the flow of the exhaust gas cannot be stopped in time, so that the dust removing net is prevented from being damaged under the condition, the dust removing net 6011 is made of high-temperature alloy or ceramic materials, and the strength and the stability of the dust removing net 6011 are maintained under the high-temperature environment.

Dust collection covers 603 are movably connected in the dust collection box 6, the dust collection covers 603 are distributed between two adjacent dust collection covers 601, a dust collection space 6011 formed by a dust collection net 6011 is arranged opposite to an air outlet of the rotary valve 5, the dust collection net 6011 is of a polyhedral structure under the influence of self weight of large particles, the inner wall of the dust collection net 6011 is of an inclined plane, and the large particles can be automatically separated from the dust collection net 6011 along the inclined plane and fall into the dust collection covers 603. The end of the dust hood 603 is provided with a handle 604 which is connected with the dust box 6 in a drawing mode, and when the dust hood 603 is used, the dust hood 603 can be directly drawn so as to facilitate the subsequent centralized treatment of large particles collected in the dust hood 603.

Working principle: after the waste gas is purified by the regenerator 3 and the combustion chamber 4, the waste gas enters the dust box and sequentially passes through the dust hood 603 in the dust box, large particles in the waste gas are filtered after passing through the dust hood 603, and the filtered waste gas is discharged. The large particles are blocked at one side of the dust hood 603, and after the exhaust gas treatment is completed, the large particles on the dust hood 603 drop into the dust hood 603 to be collected intensively by the dust hood 603. The dust hood 603 is pulled out manually to perform centralized treatment on the large particles.

As described above, although the present utility model has been shown and described with reference to certain preferred embodiments, it is not to be construed as limiting the utility model itself. Various changes in form and details may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (6)

1. The utility model provides an organic waste gas heat accumulation formula incineration device, includes the furnace body, set up in heater on the furnace body, distribute in regenerator and combustion chamber in the furnace body, and connect in the rotary valve of regenerator below, its characterized in that, the gas outlet of rotary valve is connected with the dust bin, the dust bin inside is equipped with multiunit dust cover, the dust cover is arranged along waste gas flow direction array.

2. An organic waste gas heat accumulating type incineration device according to claim 1, wherein a connecting frame is arranged outside the dust cover, and the connecting frame is fixedly connected with the inside of the dust collection box.

3. The organic waste gas heat accumulating type incineration device according to claim 2, wherein the dust cover is composed of a plurality of groups of dust removing nets, the longitudinal section of each dust removing net is polygonal, a plurality of groups of dust collecting spaces are formed at the ports of each dust removing net, and the dust removing nets are distributed in an array along the length direction of the connecting frame.

4. An organic waste gas heat accumulating type incineration device according to claim 3, wherein the dust collection box is movably connected with dust collection covers, and the dust collection covers are distributed between two adjacent dust collection covers.

5. The device of claim 4, wherein the dust hood has a handle at its end for drawing out the dust box.

6. An organic waste gas heat accumulating type incinerator according to claim 4, wherein the dust removing net is made of high-temperature alloy or ceramic material.