CN215506246U - Plastic-wood floor production waste gas spray water treatment tower - Google Patents

Abstract

The utility model discloses a plastic-wood floor production waste gas spray water treatment tower, relates to the technical field of waste gas treatment, and aims to solve the problem that the waste gas treatment consumes long time because the waste gas spray treatment effect is general in the existing plastic-wood floor production waste gas spray water treatment tower. The both sides of exhaust-gas treatment tower all are provided with the intake pipe, the inside of exhaust-gas treatment tower is provided with first reaction storehouse, second reaction storehouse respectively, and first reaction storehouse, second reaction storehouse all with exhaust-gas treatment tower inner wall welded connection, the lower extreme in first reaction storehouse and second reaction storehouse all is provided with the reaction storehouse intake pipe, the upper end in first reaction storehouse and second reaction storehouse all is provided with gondola water faucet blade pipe, every the both sides of gondola water faucet blade pipe all are provided with the reaction storehouse blast pipe, every reaction storehouse blast pipe one end on the second reaction storehouse all is provided with the blast pipe, one side of exhaust-gas treatment tower is provided with the water pump, every the upper end of reaction storehouse intake pipe all is provided with ventilative water proof membrane.

Description

Plastic-wood floor production waste gas spray water treatment tower

Technical Field

The utility model relates to the technical field of waste gas treatment, in particular to a plastic-wood floor production waste gas spray water treatment tower.

Background

The exhaust gas purification tower is a device for realizing the absorption operation. The liquid-gas phase contact state can be divided into three types. The first type is a plate tower, a bubbling absorption tower and a stirring bubbling absorption tower, wherein gas is dispersed in a liquid phase in a bubble form; the second type is an ejector, a venturi, a spray tower in which liquid is dispersed in a gas phase in the form of droplets; the third type is a packed absorption column and a falling film absorption column in which liquid contacts with a gas phase in a film-like motion. The gas-liquid two-phase flow mode in the tower can be countercurrent or cocurrent. The gas-liquid phase has strong disturbance, reduces the mass transfer resistance and improves the absorption efficiency. Usually, a countercurrent operation is adopted, the absorbent flows from top to bottom in the tower top, and contacts with the gas flowing from bottom to top, the liquid absorbed with the absorbent is discharged from the bottom of the tower, and the purified gas is discharged from the top of the tower.

However, the existing plastic-wood floor production waste gas spraying water treatment tower has the problem of long waste gas treatment time consumption due to the common waste gas spraying treatment effect; therefore, the existing requirements are not met, and a plastic-wood floor production waste gas spray water treatment tower is provided for the requirements.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a plastic-wood floor production waste gas spray water treatment tower, which aims to solve the problem that the waste gas treatment consumes long time due to the common waste gas spray treatment effect of the existing plastic-wood floor production waste gas spray water treatment tower in the background art.

In order to achieve the purpose, the utility model provides the following technical scheme: a spray water treatment tower for waste gas produced by plastic wood floor comprises a waste gas treatment tower, wherein air inlet pipes are arranged on two sides of the waste gas treatment tower, a first reaction bin and a second reaction bin are respectively arranged in the waste gas treatment tower, the first reaction bin and the second reaction bin are welded with the inner wall of the waste gas treatment tower, the first reaction bin and the second reaction bin are welded with each other, a pipeline is welded between the first reaction bin and the second reaction bin, reaction bin air inlet pipes are arranged at the lower ends of the first reaction bin and the second reaction bin, the reaction bin air inlet pipe at the lower end of the first reaction bin is welded with the air inlet pipe, shower blade pipes are arranged at the upper ends of the first reaction bin and the second reaction bin, reaction bin exhaust pipes are arranged on two sides of each shower blade pipe, the reaction bin exhaust pipe on the first reaction bin is welded with the reaction bin on the second reaction bin, and an exhaust pipe is arranged at one end of the reaction bin exhaust pipe on the second reaction bin, one side of exhaust-gas treatment tower is provided with the water pump, and the input of water pump and the pipeline welded connection under the first reaction storehouse, the output of water pump and the gondola water faucet blade pipe welded connection of second reaction storehouse upper end, every the upper end of reaction storehouse intake pipe all is provided with ventilative water proof membrane.

Preferably, the inside in first reaction storehouse and second reaction storehouse all is provided with waste gas reaction main warehouse, the upper end in waste gas reaction main warehouse is provided with ventilative osmotic membrane, and ventilative osmotic membrane and gondola water faucet blade pipe tube coupling.

Preferably, the outer side of each breathable permeable membrane is provided with a breathable cover, and the breathable covers are connected with the breathable permeable membranes in a welded mode.

Preferably, the two sides of the waste gas reaction main bin are provided with return pipes, a U-shaped reaction pipe is arranged below each return pipe, and the U-shaped reaction pipes are connected with the return pipes in a welded mode.

Preferably, every one side of back flow all is provided with the dry filter core of waste gas, and the lower extreme and the U type reaction tube pipeline welded connection of the dry filter core of waste gas, the upper end and the reaction storehouse blast pipe pipeline welded connection of the dry filter core of waste gas.

Preferably, each exhaust pipe is provided with an exhaust gas monitoring electromagnetic valve, and the exhaust gas monitoring electromagnetic valve is connected with the exhaust pipe through a flange.

Compared with the prior art, the utility model has the beneficial effects that:

1. the utility model is characterized in that through the arrangement of a first reaction chamber and a second reaction chamber, waste gas is firstly guided into the first reaction chamber from a gas inlet pipe, the waste gas enters a waste gas reaction main chamber in the first reaction chamber from the gas inlet pipe of the reaction chamber, meanwhile, treated water is conveyed by a water pump and enters from a shower blade pipe at the upper end, the treated water is rotated by blades in the shower blade pipe, so that the treated water can be uniformly dispersed on a permeable membrane, the waste gas in the waste gas reaction main chamber is fully contacted with the treated water on the permeable membrane, bubbles are formed at the upper end of the permeable membrane along with airflow, the bubbles of the treated water and the waste gas are fully reacted and then pass through a permeable cover to a return pipe, at the moment, the treated water flows out from the lower end of the waste gas reaction main chamber, the waste gas in the return pipe passes through a U-shaped reaction pipe, the U-shaped reaction pipe is a U-shaped pipeline, and can store the overflowing treated water in the U-shaped reaction chamber, make the processing water fully contact with the complete waste gas of unreacted once more, the waste gas through reprocessing flows to reaction bin blast pipe after passing through the drying of exhaust gas drying filter core to according to the inside same exhaust-gas treatment that carries on of above-mentioned process reentrant second reaction bin, greatly improved exhaust-gas treatment's efficiency, reduce the wasting of resources, solved current wood-plastic floor production waste gas shower water treatment tower, because waste gas sprays the treatment effect generally, cause the problem that exhaust-gas treatment consumes time.

2. Through the setting of water pump and exhaust gas monitoring solenoid valve, waste gas through the processing flows to the blast pipe from the reaction storehouse blast pipe of second reaction storehouse upper end, waste gas monitoring solenoid valve on the blast pipe detects waste gas and does not reach the emission standard, the pipeline is closed to the exhaust gas monitoring solenoid valve, make waste gas get into the inside exhaust gas treatment that circulates of second reaction storehouse again, can open the exhaust gas monitoring solenoid valve if waste gas reaches the emission standard, discharge waste gas from the blast pipe, the processing water then is circulated in proper order by the water pump and is passed through the water pump, the second reaction storehouse, first reaction storehouse is got back to the water pump at last and is handled the water circulation treatment step, greatly the water resource is saved, the exhaust gas treatment cost is reduced, the resource utilization rate is improved.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the internal structure of the present invention.

FIG. 3 is a schematic structural view of a first reaction chamber according to the present invention.

In the figure: 1. a waste gas treatment tower; 2. an air inlet pipe; 3. a first reaction bin; 4. a second reaction bin; 5. an exhaust pipe; 6. an exhaust gas monitoring solenoid valve; 7. a water pump; 8. a reaction bin air inlet pipe; 9. a waste gas reaction main bin; 10. a shower vane tube; 11. a breathable permeable membrane; 12. a return pipe; 13. a U-shaped reaction tube; 14. waste gas drying the filter element; 15. a reaction bin exhaust pipe; 16. a ventilation cover; 17. a breathable waterproof membrane.

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. 1-3, an embodiment of the present invention is shown: a plastic wood floor production waste gas spray water treatment tower comprises a waste gas treatment tower 1, wherein both sides of the waste gas treatment tower 1 are provided with gas inlet pipes 2, the interior of the waste gas treatment tower 1 is respectively provided with a first reaction chamber 3 and a second reaction chamber 4, the first reaction chamber 3 and the second reaction chamber 4 are welded with the inner wall of the waste gas treatment tower 1, the first reaction chamber 3 is welded with the second reaction chamber 4 through a pipeline, the lower ends of the first reaction chamber 3 and the second reaction chamber 4 are provided with reaction chamber gas inlet pipes 8, the reaction chamber gas inlet pipes 8 at the lower end of the first reaction chamber 3 are welded with the gas inlet pipes 2, the upper ends of the first reaction chamber 3 and the second reaction chamber 4 are provided with shower vane pipes 10, both sides of each shower vane pipe 10 are provided with reaction chamber exhaust pipes 15, and the reaction chamber exhaust pipes 15 on the first reaction chamber 3 are welded with the reaction chamber gas inlet pipes 8 on the second reaction chamber 4, 15 one ends of reaction chamber blast pipes on every second reaction chamber 4 all are provided with blast pipe 5, and one side of exhaust-gas treatment tower 1 is provided with water pump 7, and the input of water pump 7 and 3 lower side pipeline welded connection in first reaction chamber, the output of water pump 7 and the 10 pipeline welded connections of gondola water faucet blade pipe on the second reaction chamber 4, and the upper end of every reaction chamber intake pipe 8 all is provided with ventilative water proof membrane 17.

Further, the inside in first reaction storehouse 3 and second reaction storehouse 4 all is provided with waste gas reaction main warehouse 9, the upper end in waste gas reaction main warehouse 9 is provided with ventilative osmotic membrane 11, and ventilative osmotic membrane 11 and 10 pipe connections of gondola water faucet blade pipe, ventilative osmotic membrane 11 can make the treated water cover on ventilative osmotic membrane 11, and when waste gas passed ventilative osmotic membrane 11, can form the bubble with the treated water, greatly improved the reaction area of contact between treated water and the waste gas, improve exhaust-gas treatment efficiency.

Further, every ventilative osmotic membrane 11's the outside all is provided with ventilative cover 16, and ventilative cover 16 and ventilative osmotic membrane 11 welded connection, and ventilative cover 16 is used for insulating most processing water, prevents that processing water from overflowing to inside the back flow pipe 12 excessively.

Further, the both sides of waste gas reaction main storehouse 9 all are provided with back flow pipe 12, and the below of every back flow pipe 12 all is provided with U type reaction tube 13, and U type reaction tube 13 and back flow 12 pipeline welded connection, and at the inside waste gas of back flow 12 through U type reaction tube 13, U type reaction tube 13 is U type pipeline, and it can be with the processing water part storage that overflows inside U type reaction tube 13 for the processing water can fully contact with the complete waste gas of unreacted once more.

Furthermore, a waste gas drying filter element 14 is arranged on one side of each return pipe 12, the lower end of the waste gas drying filter element 14 is connected with the U-shaped reaction pipe 13 in a pipeline welding mode, the upper end of the waste gas drying filter element 14 is connected with the reaction bin exhaust pipe 15 in a pipeline welding mode, and the waste gas drying filter element 14 is used for drying the treated waste gas.

Further, all be provided with exhaust gas monitoring solenoid valve 6 on every blast pipe 5, and exhaust gas monitoring solenoid valve 6 and 5 flange joint of blast pipe for whether the waste gas after the detection device handles reaches emission standard, with this pipeline switch of control blast pipe 5.

The working principle is as follows: when in use, waste gas is firstly led into the first reaction chamber 3 from the gas inlet pipe 2, the waste gas enters the waste gas reaction main chamber 9 in the first reaction chamber 3 from the gas inlet pipe 8 of the reaction chamber, meanwhile, treated water is transported by the water pump 7 and enters from the shower blade pipe 10 at the upper end, the treated water is rotated by the blades in the shower blade pipe 10, so that the treated water can be uniformly dispersed on the permeable membrane 11, the waste gas in the waste gas reaction main chamber 9 is fully contacted with the treated water on the permeable membrane 11, bubbles are formed at the upper end of the permeable membrane 11 along with airflow, the bubbles of the treated water fully react with the waste gas and then pass through the permeable cover 16 to the return pipe 12, at the moment, the treated water flows out from the lower end of the waste gas reaction main chamber 9, the waste gas in the return pipe 12 passes through the U-shaped reaction pipe 13, the U-shaped reaction pipe 13 is a U-shaped pipe, and can partially store the overflowed treated water in the U-shaped reaction pipe 13, the treated water can fully contact with the unreacted waste gas again, the retreated waste gas flows to the reaction bin exhaust pipe 15 after being dried by the waste gas drying filter element 14 and enters the second reaction bin 4 to be treated with the same waste gas according to the process, the waste gas treatment efficiency is greatly improved, the resource waste is reduced, the problem that the waste gas treatment takes long time because the waste gas spraying treatment effect is general in the existing spray water treatment tower for waste gas produced by the plastic wood floor is solved, the treated waste gas flows to the exhaust pipe 5 from the reaction bin exhaust pipe 15 at the upper end of the second reaction bin 4, when the waste gas monitoring electromagnetic valve 6 on the exhaust pipe 5 detects that the waste gas does not reach the emission standard, the waste gas monitoring electromagnetic valve 6 closes the pipeline, so that the waste gas enters the second reaction bin 4 again to be treated with the circulating waste gas, and the waste gas monitoring electromagnetic valve 6 can be opened if the waste gas reaches the emission standard, discharge waste gas from blast pipe 5, the processing water then is circulated in proper order by water pump 7 and is got back to water pump 7 at last by water pump 7, second reaction storehouse 4, first reaction storehouse 3 and handles the water circulation processing step, has greatly practiced thrift the water resource, reduces the exhaust-gas treatment cost, improves resource utilization.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides a mould wooden floor production waste gas shower water treatment tower, includes exhaust-gas treatment tower (1), its characterized in that: the both sides of exhaust-gas treatment tower (1) all are provided with intake pipe (2), the inside of exhaust-gas treatment tower (1) is provided with first reaction storehouse (3), second reaction storehouse (4) respectively, first reaction storehouse (3), second reaction storehouse (4) all with exhaust-gas treatment tower (1) inner wall welded connection, and pipeline welded connection between first reaction storehouse (3) and second reaction storehouse (4), the lower extreme of first reaction storehouse (3) and second reaction storehouse (4) all is provided with reaction storehouse intake pipe (8), and reaction storehouse intake pipe (8) and intake pipe (2) welded connection of first reaction storehouse (3) lower extreme, the upper end of first reaction storehouse (3) and second reaction storehouse (4) all is provided with gondola water faucet blade pipe (10), every the both sides of gondola water faucet blade pipe (10) all are provided with reaction storehouse blast pipe (15), and reaction storehouse blast pipe (15) on first reaction storehouse (3) and the second reaction storehouse (4) advance into Trachea (8) welded connection, every reaction storehouse blast pipe (15) one end on second reaction storehouse (4) all is provided with blast pipe (5), one side of exhaust-gas treatment tower (1) is provided with water pump (7), and the input of water pump (7) and first reaction storehouse (3) below pipeline welded connection, the output of water pump (7) and gondola water faucet blade pipe (10) pipeline welded connection of second reaction storehouse (4) upper end.

2. The plastic-wood floor production waste gas spray water treatment tower of claim 1, which is characterized in that: the inside in first reaction storehouse (3) and second reaction storehouse (4) all is provided with exhaust gas reaction main warehouse (9), the upper end in exhaust gas reaction main warehouse (9) is provided with ventilative osmotic membrane (11), and ventilative osmotic membrane (11) and gondola water faucet blade pipe (10) pipe connection.

3. The plastic-wood floor production waste gas spray water treatment tower of claim 2, which is characterized in that: the outer side of each breathable permeable membrane (11) is provided with a breathable cover (16), and the breathable covers (16) are connected with the breathable permeable membranes (11) in a welded mode.

4. The plastic-wood floor production waste gas spray water treatment tower of claim 2, which is characterized in that: the waste gas reaction main bin (9) is characterized in that return pipes (12) are arranged on two sides of the waste gas reaction main bin, a U-shaped reaction pipe (13) is arranged below each return pipe (12), and the U-shaped reaction pipes (13) are connected with the return pipes (12) in a pipeline welding mode.

5. The plastic-wood floor production waste gas spray water treatment tower according to claim 4, characterized in that: every one side of back flow (12) all is provided with exhaust gas drying filter core (14), and the lower extreme and U type reaction pipe (13) pipeline welded connection of exhaust gas drying filter core (14), the upper end and the reaction storehouse blast pipe (15) pipeline welded connection of exhaust gas drying filter core (14).

6. The plastic-wood floor production waste gas spray water treatment tower of claim 1, which is characterized in that: every all be provided with exhaust gas monitoring solenoid valve (6) on blast pipe (5), and exhaust gas monitoring solenoid valve (6) and blast pipe (5) flange joint.

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