CN216259842U - Integrated exhaust treatment device - Google Patents

Abstract

In order to solve the problems of incomplete purification and inconvenient movement of the existing exhaust purification equipment, the utility model provides an integrated exhaust treatment device, which comprises a treatment tank body extending along the horizontal direction, wherein a first partition plate and a second partition plate are arranged in the treatment tank body, the first partition plate is vertically arranged in the treatment tank body so as to partition the interior of the treatment tank body into a sedimentation cavity and a purification cavity which are horizontally arranged in parallel, the second partition plate is horizontally arranged in the purification cavity so as to partition the purification cavity into a first atomization cavity and a water treatment cavity which are vertically arranged in parallel, and the first atomization cavity is positioned above the water treatment cavity. The integrated exhaust treatment device provided by the utility model can effectively remove dust particles and harmful gases in the exhaust gas, and meanwhile, a plurality of functional modules are integrated in one device, so that the integrated exhaust treatment device is high in mobility.

Description

Integrated exhaust treatment device

Technical Field

The utility model belongs to the technical field of environment-friendly equipment, and particularly relates to an integrated exhaust treatment device.

Background

In order to solve the problems of dust emission, influence on air quality and pollution to the environment caused by self-stirring of building mortar in a construction site, a mortar tank is produced by transportation, the mortar tank is used as a carrier of dry powder mortar to be stored in the construction site, the dry powder mortar in bulk is transported to the construction site through a mortar transport vehicle, the dry powder mortar is conveyed into the mortar tank through air suction to complete feeding operation, and the mortar tank is stirred and discharged through a continuous stirrer hung at the lower end during use.

The blast pipe department at the mortar jar is established through the sack cover to current processing mode to the mesh through the sack filters giving vent to anger, thereby collects the mortar dust in the exhaust, however the mortar dust in the exhaust can't be accomplished to the filtration to this kind of mode, and a large amount of fine particle dust can be revealed, can't eliminate the environmental impact to the construction site. The existing other small dust removal structures, such as a cyclone separator, also have the problem that some fine particle dust, such as pm2.5 and the like, cannot be completely filtered; some existing large-scale dust removal structures have the problems of high construction cost and inconvenience in movement, and are not suitable for being used on construction sites.

In addition, in other fields except for a construction site, for example, some chemical fields that discharge harmful gases, etc., there is also a need for an exhaust gas purification apparatus that can effectively remove dust or remove harmful gases and has high mobility.

SUMMERY OF THE UTILITY MODEL

The utility model provides an integrated exhaust treatment device, aiming at the problems of incomplete purification and inconvenient movement of the existing exhaust purification equipment.

The technical scheme adopted by the utility model for solving the technical problems is as follows:

the utility model provides an integrated exhaust treatment device, which comprises a treatment tank body extending along the horizontal direction, wherein a first partition plate and a second partition plate are arranged in the treatment tank body, the first partition plate is vertically arranged in the treatment tank body so as to divide the interior of the treatment tank body into a sedimentation cavity and a purification cavity which are horizontally arranged in parallel, the second partition plate is horizontally arranged in the purification cavity so as to divide the purification cavity into a first atomization cavity and a water treatment cavity which are vertically arranged in parallel, the first atomization cavity is positioned above the water treatment cavity, an air inlet communicated with the sedimentation cavity is arranged on the outer wall of the treatment tank body, a first vent communicated with the sedimentation cavity and the first atomization cavity is arranged on the first partition plate, a second vent is arranged at the top of one end of the first atomization cavity far away from the first partition plate, and a water outlet is arranged at one end of the second partition plate far away from the first partition plate, the settling chamber is used for preliminary settling of particulate matters in the dust; the first atomization chamber is used for atomizing, spraying and absorbing particles or harmful gas in dust and forming wastewater, and the water treatment chamber is used for treating the wastewater generated by the first atomization chamber.

Optionally, the air inlet is located at the central position of the end part of the settling chamber far away from the first partition plate.

Optionally, a discharge port is formed at the bottom of the settling chamber, and a cover door is arranged at the discharge port in an openable and closable manner.

Optionally, a plurality of overflow plates are arranged at the bottom of the water treatment cavity, the overflow plates are sequentially arranged at intervals along the direction away from the water outlet, the height of the overflow plates gradually decreases, the bottom of the water treatment cavity is partitioned by the overflow plates to form a purification water tank and a plurality of overflow tanks, the purification water tank is located at one end, away from the water outlet, of the water treatment cavity, and the overflow tanks are sequentially arranged between the purification water tank and the water outlet.

Optionally, at least one of the plurality of overflow troughs is provided with a water purification structure.

Optionally, a drain outlet is arranged at the bottom of the overflow groove, and a control valve is arranged on the drain outlet.

Optionally, the integrated exhaust treatment device further includes a circulation pump, a plurality of first atomizer nozzles are arranged inside the first atomizing chamber, a water inlet end of the circulation pump is communicated to the purification water tank, and a water outlet end of the circulation pump is communicated to the plurality of first atomizer nozzles.

Optionally, the integrated exhaust treatment device further comprises a second atomization chamber, the second atomization chamber is vertically arranged above the second vent, the top of the second atomization chamber is provided with an exhaust port, a plurality of second atomization nozzles are arranged in the second atomization chamber, and the water outlet end of the circulating pump is communicated to the plurality of second atomization nozzles.

Optionally, the integrated exhaust treatment device further includes a base bracket, and the treatment tank is disposed on a top of the base bracket.

According to the integrated exhaust treatment device provided by the utility model, the sedimentation chamber, the first atomization chamber and the water treatment chamber are integrated in the treatment tank body, so that the internal space of the treatment tank body is fully utilized, when the integrated exhaust treatment device is used for carrying out dust removal or harmful gas purification operation on the discharged gas, the discharged gas can be introduced into the sedimentation chamber, the dust in the gas can be preliminarily settled through the sedimentation chamber, most dust particles are settled into the sedimentation chamber, and the gas discharged from the sedimentation chamber contains a small amount of dust, so that the residual dust in the gas can be absorbed through the water mist formed by atomization spraying in the first atomization chamber, and further the dust removal effect in the gas is effectively improved, and meanwhile, if the exhaust gas contains harmful gas, the harmful gas can also be absorbed through the first atomization chamber, the purification effect is achieved; in order to avoid the pollution of the generated waste water to the environment, a water treatment cavity is also arranged for water body treatment. The integrated exhaust treatment device can effectively remove dust particles and harmful gases in the exhaust gas, and meanwhile, a plurality of functional modules are integrated in one device, so that the integrated exhaust treatment device is high in mobility.

Drawings

FIG. 1 is a schematic diagram of the internal structure of an integrated exhaust treatment device provided by the present invention;

fig. 2 is a disassembled schematic view of the structure of the integrated exhaust treatment device provided by the utility model.

The reference numbers in the drawings of the specification are as follows:

1. treating the tank body; 11. a first separator; 111. a first vent; 12. a second separator; 121. a water outlet; 13. a settling chamber; 131. an air inlet; 132. a discharge port; 14. a purification chamber; 141. a first atomizing chamber; 1411. a first atomizer; 1412. a second vent; 142. a water treatment chamber; 1421. an overflow plate; 1422. an overflow trough; 1423. a purified water tank; 1424. a sewage draining outlet; 1425. a control valve; 2. a circulation pump; 3. a second atomizing chamber; 31. a second atomizer; 32. an exhaust port; 4. a second atomizing chamber support; 5. a base support.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element 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. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 and 2, the present invention provides an integrated exhaust gas treatment device, including a treatment tank body 1 extending along a horizontal direction, a first partition plate 11 and a second partition plate 12 are disposed in the treatment tank body 1, the first partition plate 11 is vertically disposed in the treatment tank body 1 to partition the interior of the treatment tank body 1 into a settling chamber 13 and a purifying chamber 14 which are horizontally arranged, the second partition plate 12 is horizontally disposed in the purifying chamber 14 to partition the purifying chamber 14 into a first atomizing chamber 141 and a water treatment chamber 142 which are vertically arranged, the first atomizing chamber 141 is located above the water treatment chamber 142, an air inlet 131 communicating with the settling chamber 13 is disposed on an outer wall of the treatment tank body 1, a first air vent 111 communicating with the settling chamber 13 and the first atomizing chamber 141 is disposed on the first partition plate 11, a second air vent 1412 is disposed at a top of an end of the first atomizing chamber 141 away from the first partition plate 11, a water outlet 121 is formed in one end, away from the first partition plate 11, of the second partition plate 12, and the settling chamber 13 is used for primary settling of particulate matters in dust; the first atomization cavity 141 is used for atomizing, spraying and absorbing particles or harmful gas in dust and forming wastewater, and the water treatment cavity 142 is used for treating the wastewater generated by the first atomization cavity 141.

The sedimentation chamber 13, the first atomization chamber 141 and the water treatment chamber 142 are integrated in the treatment tank body 1, so that the internal space of the treatment tank body 1 is fully utilized, when the integrated exhaust treatment device is used for dedusting the discharged gas, the discharged gas can be introduced into the sedimentation chamber 13, the dust in the gas can be preliminarily settled through the sedimentation chamber 13, most dust particles are settled into the sedimentation chamber 13, and the gas discharged from the sedimentation chamber 13 contains a small amount of dust, so that the residual dust in the gas can be absorbed through the water mist formed by atomization spraying in the first atomization chamber 141, the dust removal effect in the gas is effectively improved, and meanwhile, if the exhaust gas contains harmful gas, the harmful gas can also be absorbed through the first atomization chamber, so that the purification effect is achieved; in order to avoid the pollution of the generated wastewater to the environment, a water treatment cavity 142 is also arranged for water body treatment. The integrated exhaust treatment device can effectively remove dust particles and harmful gases in the exhaust gas, and meanwhile, a plurality of functional modules are integrated in one device, so that the integrated exhaust treatment device is high in mobility.

It should be noted that the integrated exhaust treatment device provided by the present invention can be applied to different fields, for example, the integrated exhaust treatment device can be applied to exhaust treatment of a mortar tank, or other fields requiring dust removal or harmful gas purification operation for exhaust.

When the integrated exhaust treatment device is applied to the field of harmful gas purification, if the harmful gas is easily dissolved in water, the first atomization cavity can directly atomize the water to absorb the harmful gas, and in other embodiments, chemical additives having a purification effect on the harmful gas are correspondingly added in the first atomization cavity, for example, sodium hydroxide is used for purifying nitrogen oxide waste gas; purifying mercury vapor by potassium permanganate.

In one embodiment, the air inlet 131 is located at the center of the end of the settling chamber 13 away from the first partition 11. The gas inlet 131 is used to connect with an external gas discharge pipe, and in a preferred embodiment, the gas inlet 131 and the gas discharge pipe are connected in a sealing manner to prevent gas from leaking out.

In other embodiments, the air inlet 131 may be disposed at other positions of the settling chamber 13.

Preferably, the first vent 111 is located above two thirds of the height of the settling chamber 13, and the height of the gas inlet 131 is located above one third and below two thirds of the height of the settling chamber 13, so as to avoid the entering gas from stirring the dust settled at the bottom of the settling chamber 13, and avoid the gas entering the settling chamber 13 from directly being led out through the first vent 111 without settling.

In an embodiment, the bottom of the settling chamber 13 is opened with a discharge port 132, and the discharge port 132 is provided with a cover door capable of opening and closing.

After dust with a certain thickness is deposited in the settling chamber 13, the collected dust can be guided out through the discharge port 132, and in some application fields, the dust guided out through the discharge port 132 can be reused, for example, when the exhaust treatment of a mortar tank is performed, the obtained dust is mortar powder, and can be mixed into other mortar for use.

In an embodiment, a plurality of overflow plates 1421 are disposed at the bottom of the water treatment chamber 142, the plurality of overflow plates 1421 are sequentially arranged at intervals along a direction away from the water outlet 121, the height of the plurality of overflow plates 1421 gradually decreases, the plurality of overflow plates 1421 divide the bottom of the water treatment chamber 142 to form a purified water tank 1423 and a plurality of overflow slots 1422, the purified water tank 1423 is located at an end of the water treatment chamber 142 away from the water outlet 121, and the plurality of overflow slots 1422 are sequentially arranged between the purified water tank 1423 and the water outlet 121.

The waste water generated by absorbing dust or harmful gas in the first atomizing chamber 141 contains a large amount of dust particles or forms a solution of harmful gas, in order to avoid the influence of the generated waste water on the environment, the waste water generated by the first atomizing chamber 141 is guided into the water treatment chamber 142 from the water outlet 121, specifically, the waste water firstly enters the overflow groove 1422 right below the water outlet 121, and when the overflow groove 1422 is full of water, the waste water overflows to the next-stage overflow groove 1422, since dust is insoluble in water in most of the dust treatment fields, the dust in the wastewater settles under the action of gravity during the flow of the wastewater in each stage of the overflow launder 1422, and thus, deposits on the bottom of the overflow launder 1422, and, as wastewater flows into the purified water bath 1423, the dust contained in the dust-free environment-friendly dust-free environment-friendly dust-free environment-friendly dust-friendly environment-free environment.

In other embodiments, a plurality of the overflow plates 1421 may be provided at the same height, and one end of the treatment tank 1 is raised to form an overflow and sedimentation effect.

In different embodiments, the processing tank 1 may be a cylindrical tank, a square tank, a tank with an oval cross section, a tank with a triangular cross section, or the like.

In this embodiment, the processing tank body 1 is a cylindrical tank body, and when the cylindrical tank body is adopted, the bottom of the settling chamber 13 and the bottom of the water processing chamber 142 are both arc-shaped, which is beneficial to settling and discharging dust therein.

In some embodiments, if the plurality of overflow chutes 1422 are not yet capable of completely purifying the wastewater generated by the first atomizing chamber 141, for example, when the integrated exhaust gas treatment device is applied to a field containing harmful gases, or when the content of dust in the wastewater is too large and the particle size is too small, a water purification structure may be disposed in at least one of the plurality of overflow chutes 1422 to further purify the water.

The water purification structure may be selected according to the type and content of impurities in the water body, and in particular, the water purification structure may be selected from a packed bed or other commercially available purification structures.

In some application fields, when harmful gas soluble in water is contained in the gas, the water purification structure can be arranged as a corresponding medicine adding device.

In a preferred embodiment, the water purification structure is disposed in a single or multiple overflow launders 1422 remote from the water outlet 121, where the overflow launder 1422 near the water outlet 121 maintains its dust settling function, and the overflow launder 1422 remote from the water outlet 121 serves for further water body purification.

In an embodiment, a drain 1424 is disposed at the bottom of the overflow chute 1422, and a control valve 1425 is disposed on the drain 1424. The dust and sewage deposited at the bottom of the overflow launder 1422 can be discharged through the drain port 1424, thereby avoiding the influence of excessive dust deposited in the overflow launder 1422 on the purification effect thereof and facilitating the cleaning of the overflow launder 1422.

In an embodiment, the integrated exhaust treatment device further includes a circulation pump 2, a plurality of first atomizer nozzles 1411 are disposed inside the first atomizing chamber 141, a water inlet end of the circulation pump 2 is connected to the purified water tank 1423, and a water outlet end of the circulation pump 2 is connected to the plurality of first atomizer nozzles 1411.

Through the inside of first atomizer 141 sets up a plurality ofly atomizer can fully atomize water and flood whole inside first atomizer 141 to when having dust or harmful gas's gas to pass through, dust or harmful gas can be adsorbed by atomizing water and subside extremely the bottom of first atomizer 141, and by delivery port 121 converges to water treatment chamber 142, set up circulating pump 2 will purified water in the purification basin 1423 leads to first atomizer 1411 can realize the cyclic utilization of water, avoids the waste of water resource.

In the continuous operation process of the integrated exhaust treatment device, a part of water is inevitably lost, and at this time, water may be added to the purification water tank 1423 for replenishment, specifically, a water pipe may be connected to the outer wall of the purification water tank 1423, and when the integrated exhaust treatment device has insufficient water, the water pipe is opened for replenishment.

The position arrangement of the plurality of first atomizing nozzles 1411 in the first atomizing chamber 141 can be set according to requirements, in some embodiments, the plurality of first atomizing nozzles 1411 are disposed on the inner wall of the first atomizing chamber 141, in other embodiments, a plurality of water pipes are disposed inside the first atomizing chamber 141, and the plurality of first atomizing nozzles 1411 are disposed on the water pipes.

When the first atomizing chamber 141 cannot completely remove dust or harmful gas in the gas, in order to avoid the dust or harmful gas contained in the exhaust gas, in some embodiments, the integrated exhaust gas treatment device further includes a second atomizing chamber 3, the second atomizing chamber 3 is vertically disposed above the second vent 1412, the top of the second atomizing chamber 3 is provided with an exhaust port 32, the second atomizing chamber 3 is provided with a plurality of second atomizing nozzles 31, and the water outlet end of the circulating pump 2 is communicated to the plurality of second atomizing nozzles 31.

Through second atomizing chamber 3 can further improve integrated form exhaust treatment device is to the ability of getting rid of dust in the gas, because second atomizing chamber 3 is vertical setting, and the effect that usable gravity subsides makes dust or harmful gas that adsorb on the atomizing drop of water subside, finally flows in through second vent 1412 in first atomizing chamber 141, by first atomizing chamber 141 flows in again in the water treatment chamber 142.

In an embodiment, the integrated exhaust treatment device further includes a second atomizing chamber support 4, the second atomizing chamber support 4 is disposed above the second air vent 1412, the second atomizing chamber 3 is fixed on the second atomizing chamber support 4, and the second atomizing chamber support 4 is configured to support the second atomizing chamber 3.

In an embodiment, the integrated exhaust gas treatment device further includes a base bracket 5, the treatment tank 1 is disposed on top of the base bracket 5, and the base bracket 5 is used for supporting the treatment tank 1.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (9)

1. An integrated exhaust treatment device is characterized by comprising a treatment tank body extending along the horizontal direction, wherein a first partition plate and a second partition plate are arranged in the treatment tank body, the first partition plate is vertically arranged in the treatment tank body so as to divide the interior of the treatment tank body into a settling chamber and a purifying chamber which are horizontally arranged in parallel, the second partition plate is horizontally arranged in the purifying chamber so as to divide the purifying chamber into a first atomizing chamber and a water treatment chamber which are vertically arranged in parallel, the first atomizing chamber is positioned above the water treatment chamber, an air inlet communicated with the settling chamber is arranged on the outer wall of the treatment tank body, a first air vent communicated with the settling chamber and the first atomizing chamber is arranged on the first partition plate, a second air vent is arranged at the top of one end of the first atomizing chamber far away from the first partition plate, and a water outlet is arranged at one end of the second partition plate far away from the first partition plate, the settling chamber is used for preliminary settling of particulate matters in the dust; the first atomization chamber is used for atomizing, spraying and absorbing particles or harmful gas in dust and forming wastewater, and the water treatment chamber is used for treating the wastewater generated by the first atomization chamber.

2. The integrated exhaust treatment device according to claim 1, wherein the air inlet is located centrally on an end of the settling chamber distal from the first partition.

3. The integrated exhaust treatment device according to claim 1, wherein a discharge port is opened at a bottom of the settling chamber, and a cover door is openably and closably provided at the discharge port.

4. The integrated exhaust treatment device according to claim 1, wherein a plurality of overflow plates are disposed at the bottom of the water treatment chamber, and are spaced apart from each other in a direction away from the water outlet, and gradually decrease in height, and a purified water tank and a plurality of overflow tanks are formed by dividing the bottom of the water treatment chamber by the plurality of overflow plates, the purified water tank is located at an end of the water treatment chamber away from the water outlet, and the overflow tanks are disposed between the purified water tank and the water outlet.

5. The integrated exhaust treatment device according to claim 4, wherein at least one of the plurality of overflow troughs is provided with a water purification structure.

6. The integrated exhaust treatment device according to claim 4, wherein a drain outlet is provided at a bottom of the overflow tank, and a control valve is provided on the drain outlet.

7. The integrated exhaust treatment device according to claim 4, further comprising a circulation pump, wherein a plurality of first atomizer nozzles are disposed inside the first atomizing chamber, a water inlet of the circulation pump is connected to the purified water tank, and a water outlet of the circulation pump is connected to the plurality of first atomizer nozzles.

8. The integrated exhaust treatment device according to claim 7, further comprising a second atomization chamber, wherein the second atomization chamber is vertically disposed above the second vent, an exhaust port is disposed at a top of the second atomization chamber, a plurality of second atomization nozzles are disposed in the second atomization chamber, and a water outlet end of the circulation pump is communicated to the plurality of second atomization nozzles.

9. The integrated exhaust treatment device according to claim 1, further comprising a base support, the treatment canister being disposed atop the base support.

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