CN211694961U

CN211694961U - Waste gas treatment device

Info

Publication number: CN211694961U
Application number: CN202020092065.4U
Authority: CN
Inventors: 蒋峰; 朱军武; 华攀龙
Original assignee: Jiangsu Feng Ye Technology Environmental Protection Group Co ltd
Current assignee: Jiangsu Fengye Environmental Technology Group Co ltd
Priority date: 2020-01-16
Filing date: 2020-01-16
Publication date: 2020-10-16
Anticipated expiration: 2030-01-16

Abstract

The utility model discloses a kiln waste gas treatment device, which comprises a water tank and a filter tank, wherein the water tank is internally provided with a holding space, a radiating tube, a water inlet and a water outlet; the filter tank is internally provided with an accommodating space, an air inlet hole, an exhaust hole and a water inlet hole, the accommodating space is internally provided with an air inlet area, a filtering area and a sprinkling area, the filtering area is provided with a filter element, the sprinkling area is internally provided with a sprinkling device, the sprinkling device is communicated with the water inlet hole so as to cool the waste gas for the second time, and the exhaust hole is communicated with the sprinkling area so as to discharge the cooled and filtered waste gas; the utility model discloses utilize the basin to reduce exhaust gas temperature and with the impurity in the filter cell filtering waste gas, reach kiln exhaust-gas treatment's purpose.

Description

Waste gas treatment device

Technical Field

The utility model relates to a waste gas treatment equipment, in particular to waste gas treatment device.

Background

At present, various pollutant-containing gases discharged into the air generated in the fuel combustion and production processes in enterprise factories, such as: boiler waste gas treatment is consistent and troubles all boiler units, and because the boiler waste gas contains a large amount of sulfide, nitrogen oxide and dust, if the boiler waste gas is not treated by any method or the treatment method is improper, the boiler waste gas can cause great pollution to the atmosphere and the surrounding environment, and energy is wasted. At present, a plurality of units or individuals research on a boiler waste gas treatment device, and although certain results are obtained, the boiler waste gas treatment device has some defects and shortcomings and needs to be further improved. For example, the heat energy of the discharged smoke is likely to cause overheating and damage to the components of the blower, resulting in a higher failure rate of the blower and further increasing the production cost.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an exhaust treatment device, but the temperature of greatly reduced exhaust gas to the life of extension equipment.

The purpose of the utility model is realized like this: a waste gas treatment device comprises a water tank and a filter tank, wherein an accommodating space, a radiating pipe, a water inlet and a water outlet are arranged in the water tank, the first accommodating space, the water inlet and the water outlet are communicated, the water inlet is communicated with a water source, water flow is guided into the accommodating space through the water inlet, the radiating pipe is communicated with a smoke exhaust hole of a kiln, the radiating pipe penetrates through the accommodating space, and waste gas discharged by the kiln is cooled by the aid of the water flow in the accommodating space through the radiating pipe; a second containing space, an air inlet hole, an air outlet hole and a water inlet hole are arranged in the filter tank, an air inlet area, a filtering area and a sprinkling area are arranged in the second containing space, the air inlet area is arranged at the lower end of the containing space, the sprinkling area is arranged at the upper end of the containing space, the filtering area is arranged between the air inlet area and the sprinkling area, the air inlet hole is communicated with the air inlet area, the air inlet hole is communicated with the radiating pipe, so that the waste gas cooled by the radiating pipe is guided into the air inlet area through the air inlet hole, a filter element is arranged in the filtering area, the filter element filters the waste gas in the air inlet area and is guided into the sprinkling area after being filtered by the filtering area, a sprinkling device is arranged in the sprinkling area, the sprinkling device is communicated with the water inlet hole, so that the sprinkling device sprinkles water in the sprinkling area to cool the waste gas for the second time, the exhaust holes are communicated with the sprinkling area, so that the exhaust holes discharge the cooled and filtered waste gas.

As a further limitation of the present invention, the water outlet is higher than the water inlet, so that the water flow contacts the heat sink to take away heat energy, and the water is discharged from the water outlet.

As a further limitation of the present invention, the exhaust holes are communicated with the blower device, so that the exhaust gas in the sprinkling zone is available to the blower device.

As a further limitation of the utility model, the filter element is made of a filtering material with a porous structure and is utilized to isolate the filter element the air intake area with the watering area.

As a further limitation of the present invention, a drain hole is provided on the filter cell, the drain hole is provided at the bottom of the filter cell and is communicated with the air intake area, so that the drain hole discharges the liquid in the accommodating space of the filter cell.

As a further limitation of the present invention, the filter tank may be adapted to clean the filter element by the sprinkler, and the impurities in the filter element may be flushed to the air inlet region and discharged from the drain hole.

As the utility model discloses a further inject, watering device chooses for use the atomizer, makes rivers warp watering device atomizes back and waste gas mixing, makes waste gas cooling and by exhaust hole discharge.

Compared with the prior art, the beneficial effects of the utility model reside in that: the utility model leads water flow into the holding space through the water inlet by arranging the holding space, the radiating pipe, the water inlet and the water outlet which are communicated in the water tank, and utilizes the water flow in the holding space to lead the waste gas discharged by the kiln to be cooled through the radiating pipe; the water tank is used for reducing the temperature of the waste gas and the filter tank is used for filtering impurities in the waste gas, so that the aim of treating the waste gas of the kiln is fulfilled.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a perspective exploded view of the present invention.

Fig. 3 is a schematic cross-sectional view of the present invention.

Fig. 4 is a schematic diagram of another embodiment of the present invention.

Detailed Description

The present invention will be further described with reference to the following specific embodiments.

An exhaust gas treatment device as shown in fig. 1-4; comprises a water tank 1 and a filter tank 2;

the kiln furnace waste gas cooling device comprises a water tank 1, a first accommodating space 11, a radiating pipe 12, a water inlet 13 and a water outlet 14, wherein the first accommodating space 11 of the water tank 1, the water inlet 13 of the water tank 1 and the water outlet 14 of the water tank 1 are communicated, the water inlet 13 of the water tank 1 is communicated with a water source, so that water flow is guided into the first accommodating space 11 of the water tank 1 through the water inlet 13 of the water tank 1, the radiating pipe 12 of the water tank 1 is communicated with a smoke exhaust hole of a kiln, the radiating pipe 12 of the water tank 1 penetrates through the first accommodating space 11 of the water tank 1, and waste gas discharged by the kiln furnace is cooled by utilizing the water flow in the first accommodating space 11 of the water tank;

a filter tank 2 having a second receiving space 21, an air inlet hole 22, an air outlet hole 23 and an air inlet hole 24, the second receiving space 21 of the filter tank 2 having an air inlet region 211, a filter region 212 and a water spraying region 213, the air inlet region 211 of the second receiving space 21 of the filter tank 2 being disposed at the lower end of the second receiving space 21 of the filter tank 2, the water spraying region 213 of the second receiving space 21 of the filter tank 2 being disposed at the upper end of the second receiving space 21 of the filter tank 2, the filter region 212 of the second receiving space 21 of the filter tank 2 being disposed between the air inlet region 211 of the second receiving space 21 of the filter tank 2 and the water spraying region 213 of the second receiving space 21 of the filter tank 2, the air inlet hole 22 of the filter tank 2 being communicated with the air inlet region 211 of the second receiving space 21 of the filter tank 2, the air inlet hole 22 of the filter tank 2 being communicated with the radiating pipe 12 of the water tank 1, so that the exhaust gas cooled by the radiating pipe 12 of the water tank 1 is introduced into the air inlet hole 211 of the filter tank 2, the filter element 2121 is disposed in the filter area 212 of the second accommodating space 21 of the filter tank 2, the filter element 2121 of the filter area 212 of the second accommodating space 21 filters the exhaust gas guided into the air inlet area 211 through the air inlet 22 of the filter tank 2, and the exhaust gas is guided into the water spraying area 213 of the second accommodating space 21 of the filter tank 2 after being filtered by the filter area 212 of the second accommodating space 21 of the filter tank 2, a water spraying device 2131 is disposed in the water spraying area 213 of the second accommodating space 21 of the filter tank 2, the water spraying device 2131 is communicated with the water inlet 24 of the filter tank 2, so that the water spraying device 2131 sprays water in the water spraying area 213 of the second accommodating space 21 of the filter tank 2 to cool the exhaust gas for a second time, the exhaust hole 23 of the filter tank 2 is communicated with the water spraying area 213 of the second accommodating space 21 of the filter tank 2, and the exhaust hole 23 of the filter tank 2 discharges the exhaust gas after being cooled and filtered.

Through the above structure, further explanation:

the water inlet hole 24 of the filter tank 2 is communicated with a water source, so that the water flow is guided to the water spraying device 2131, and the water spraying device 2131 sprays water in the water spraying area 213 of the second accommodating space 21 of the filter tank 2, so as to cool the waste gas for the second time.

The water outlet 14 of the water tank 1 is higher than the water inlet 13 of the water tank 1, so that the water flow contacts the radiating pipe 12 to take away heat energy and is discharged from the water outlet 14 of the water tank 1.

The exhaust hole 23 of the filter tank 2 communicates with a blower 3 so that the exhaust gas in the sprinkling zone 213 of the second receiving space 21 of the filter tank 2 can be extracted by the blower 3.

The filter element 2121 of the filtering region 212 is made of a porous filter element, and the filter element 2121 is used to isolate the air inlet region 211 of the second accommodating space 21 from the water spraying region 213 of the second accommodating space 21.

A drain hole 25 is arranged in the filter tank 2, and the drain hole 25 of the filter tank 2 is arranged at the bottom end of the filter tank 2 and is communicated with the air inlet area 211 of the second accommodating space 21 of the filter tank 2, so that the drain hole 25 of the filter tank 2 drains the liquid in the second accommodating space 21 of the filter tank 2.

The filter tank 2 can clean the filter element 2121 by using the water spraying device 2131, flush impurities in the filter element 2121 into the air inlet region 211 of the second accommodating space 21 of the filter tank 2, and discharge the impurities from the water discharge hole 25 of the filter tank 2; wherein, the waste water discharged from the drain hole 25 of the filter tank 2 can be injected from the water inlet 13 of the water tank 1 after heat dissipation, so that the liquid for heat dissipation has the function of recycling, and the waste water discharged from the drain hole 25 of the filter tank 2 can be filtered by the filtering device to remove impurities therein; the sprinkler 2131 of the sprinkler area 213 is presented as an atomizer, so that water flows through the sprinkler 2131 to be atomized and then mixed with the exhaust gas, so that the exhaust gas is cooled and discharged through the exhaust holes 23 of the filter tank 2.

In addition the utility model discloses well kiln 4 is equipped with a fuel mouth 41, a plurality of air inlet 42, one and removes charcoal mouth 43, a kiln and burns space 44, one and puts thing mouth 45 and a gas vent 46, and the fuel mouth 41 of kiln 4, each air inlet 42 of kiln 4, the removal of charcoal mouth 43 of kiln 4, the kiln of kiln 4 burns space 44, the kiln of kiln 4 puts thing mouth 45 and the gas vent 46 of kiln 4 are linked together.

Wherein the material placing opening 45 of the kiln 4 is arranged at one end of the kiln burning space 44 of the kiln 4, a blocking door 47 is arranged at the material placing opening 45 of the kiln 4, one end of the blocking door 47 of the kiln 4 is in a pivoting connection state with the kiln 4, so that the material placing opening 45 of the kiln 4 can be controlled by the blocking door 47 of the kiln 4 to be in a closed or open state.

Wherein, an adjusting piece 48 is arranged between the exhaust port 46 of the kiln 4 and the kiln burning space 44 of the kiln 4, and the adjusting piece 48 of the kiln 4 can control the caliber of the exhaust port 46 of the kiln 4, so that the adjusting piece 48 of the kiln 4 can adjust the air exhaust quantity of the exhaust port 46 of the kiln 4.

As shown in the above, the use state description of another embodiment of the present invention includes a water tank 1 and a filter tank 2; wherein: basin 1 and filter cell 2, as above structure, because the utility model discloses a kiln exhaust treatment device, its function lies in: through the filter tank 2, which is provided with a second receiving space 21, an air inlet 22, an air outlet 23 and an air inlet 24, an air inlet area 211, a filtering area 212 and a water spraying area 213 are arranged in the second receiving space 21 of the filter tank 2, the air inlet area 211 of the second receiving space 21 of the filter tank 2 is arranged at the lower end of the second receiving space 21 of the filter tank 2, the water spraying area 213 of the second receiving space 21 of the filter tank 2 is arranged at the upper end of the second receiving space 21 of the filter tank 2, the filtering area 212 of the second receiving space 21 of the filter tank 2 is arranged between the air inlet area 211 of the second receiving space 21 of the filter tank 2 and the water spraying area 213 of the second receiving space 21 of the filter tank 2, the air inlet 22 of the filter tank 2 is communicated with the air inlet area 211 of the second receiving space 21 of the filter tank 2, and the air inlet 22 of the filter tank 2 is communicated with the radiating pipe 12 of the water tank 1, so that the waste gas cooled by the radiating pipe 12 of the water tank 1 is guided into the air inlet area 211 of the filter tank 2, a filter element 2121 is arranged in the filtering area 212 of the second accommodating space 21 of the filtering tank 2, the filter element 2121 of the filtering area 212 of the second accommodating space 21 filters the waste gas led into the gas inlet area 211 through the gas inlet 22 of the filtering tank 2, and the waste gas is led into the sprinkling area 213 of the second accommodating space 21 of the filtering tank 2 after being filtered by the filtering area 212 of the second accommodating space 21 of the filtering tank 2, a sprinkling device 2131 is arranged in the sprinkling area 213 of the second accommodating space 21 of the filtering tank 2, the sprinkling device 2131 is communicated with the water inlet 24 of the filtering tank 2, so that the sprinkling device 2131 sprinkles water in the sprinkling area 213 of the second accommodating space 21 of the filtering tank 2 to cool the waste gas for the second time, the exhaust hole 23 of the filtering tank 2 is communicated with the sprinkling area 213 of the second accommodating space 21 of the filtering tank 2, and the exhaust hole 23 of the filtering tank 2 discharges the cooled and filtered waste gas; therefore, a kiln waste gas treatment device is provided, and particularly, in the kiln burning process, the water tank 1 is used for reducing the temperature of the waste gas and the filter tank 2 is used for filtering impurities in the waste gas, so that the aim of treating the waste gas of the kiln is fulfilled.

The present invention is not limited to the above embodiments, and based on the technical solutions disclosed in the present invention, those skilled in the art can make some replacements and transformations for some technical features without creative labor according to the disclosed technical contents, and these replacements and transformations are all within the protection scope of the present invention.

Claims

1. A waste gas treatment device is characterized by comprising a water tank and a filter tank, wherein an accommodating space, a radiating pipe, a water inlet and a water outlet are arranged in the water tank, the accommodating space, the water inlet and the water outlet are communicated, the water inlet is communicated with a water source, water flow is introduced into the accommodating space through the water inlet, the radiating pipe is communicated with a smoke exhaust hole of a kiln, the radiating pipe penetrates through the accommodating space, and waste gas discharged by the kiln is cooled by the aid of the water flow in the accommodating space penetrating through the radiating pipe; a second containing space, an air inlet hole, an air outlet hole and a water inlet hole are arranged in the filter tank, an air inlet area, a filtering area and a sprinkling area are arranged in the second containing space, the air inlet area is arranged at the lower end of the containing space, the sprinkling area is arranged at the upper end of the containing space, the filtering area is arranged between the air inlet area and the sprinkling area, the air inlet hole is communicated with the air inlet area, the air inlet hole is communicated with the radiating pipe, so that the waste gas cooled by the radiating pipe is guided into the air inlet area through the air inlet hole, a filter element is arranged in the filtering area, the filter element filters the waste gas in the air inlet area and is guided into the sprinkling area after being filtered by the filtering area, a sprinkling device is arranged in the sprinkling area, the sprinkling device is communicated with the water inlet hole, so that the sprinkling device sprinkles water in the sprinkling area to cool the waste gas for the second time, the exhaust holes are communicated with the sprinkling area, so that the exhaust holes discharge the cooled and filtered waste gas.

2. The exhaust gas treatment device of claim 1, wherein the water outlet is disposed at a height higher than that of the water inlet, so that the water flow takes away heat energy after contacting the heat sink and is discharged from the water outlet.

3. An exhaust gas treatment device as claimed in claim 1, wherein said exhaust vents are in communication with a blower means such that exhaust gas in said water application region can be extracted by said blower means.

4. An exhaust gas treatment device as claimed in claim 1, wherein said filter element is made of a filter material having a porous structure, and said filter element is used to separate said air intake region from said water spray region.

5. The exhaust gas treatment device of claim 1, wherein the filter tank is provided with a drain hole, and the drain hole is disposed at a bottom end of the filter tank and is communicated with the air inlet region, so that the drain hole drains liquid in the accommodating space of the filter tank.

6. The exhaust gas treatment device of claim 5, wherein the filter tank is adapted to clean the filter element by means of the sprinkler and flush impurities in the filter element into the air inlet region and out through the drain hole.

7. The exhaust gas treatment device of claim 1, wherein the water spray device is an atomizer, so that water is atomized by the water spray device and then mixed with the exhaust gas, thereby cooling the exhaust gas and discharging the exhaust gas from the exhaust hole.