CN212017193U

CN212017193U - Heavy polluted gas treatment system

Info

Publication number: CN212017193U
Application number: CN202020407603.4U
Authority: CN
Inventors: 路国英; 卞佩龙; 卞彩云
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-03-26
Filing date: 2020-03-26
Publication date: 2020-11-27
Anticipated expiration: 2030-03-26

Abstract

The embodiment of the utility model discloses a heavy pollution gas treatment system, which belongs to the technical field of gas treatment and adopts the following technical scheme that the heavy pollution gas treatment system comprises a gas collection tank, a freezing tank, a temporary storage chamber, a sewage bucket and an ozone machine, wherein a spiral gas flow channel is arranged in the gas collection tank, and a water spraying device is arranged in the spiral gas flow channel; a refrigerator is arranged in the freezing tank, an air blowing device is arranged at the lower end of the freezing tank, an input hole is formed in the side wall of the freezing tank, an input channel is connected between the spiral airflow channel and the input hole, and a blanking hole is formed in the bottom of the freezing tank; the temporary storage chamber is arranged at the bottom of the freezing tank, an opening is formed in the bottom of the temporary storage chamber, the sewage bucket is arranged below the temporary storage chamber, a feeding hole is formed in the sewage bucket, the feeding hole is communicated with the opening of the temporary storage chamber through a pipeline, and an exhaust hole is formed in the sewage bucket; a conveying pipeline for conveying ozone into the sewage bucket is arranged between the ozone machine and the sewage bucket so as to solve the problem that the polluted gas generated by a factory is difficult to purify efficiently in the prior art.

Description

Heavy polluted gas treatment system

Technical Field

The utility model provides a novel embodiment relates to gas treatment technical field, concretely relates to heavy contaminated gas processing system.

Background

At present, when some industrial plants are used for production, a large amount of heavy polluted gas can be generated, the polluted gas contains harmful substances such as sulfur, and after the polluted gas is directly discharged into the atmosphere, the atmosphere can be polluted to a certain extent, and the environment can be damaged to a certain extent, so that in the production of the plants, the generated heavy polluted gas is effectively cleaned up.

SUMMERY OF THE UTILITY MODEL

Therefore, the present invention provides a heavy polluted gas treatment system using a novel embodiment to solve the problem in the prior art that it is difficult to efficiently purify the polluted gas generated in the factory.

In order to achieve the above purpose, the present application provides the following technical solutions:

a heavy contaminated gas treatment system according to the first aspect of this novel embodiment of use, comprising:

the gas collecting tank is used for collecting pollution gas, a spiral airflow channel from inside to outside is arranged in the gas collecting tank, and a water spraying device is arranged in the spiral airflow channel;

the inner wall of the freezing tank is provided with an interlayer, a refrigerator is arranged in the interlayer, the side wall of the lower end in the freezing tank is provided with an air blowing device blowing air obliquely upwards, the side wall of the freezing tank is also provided with an input hole, an input channel is connected between the output end of the spiral airflow channel of the gas collecting tank and the input hole of the freezing tank, and the bottom of the freezing tank is also provided with a blanking hole;

the temporary storage chamber is arranged at the bottom of the freezing tank, an opening is formed in the bottom of the temporary storage chamber, and a valve is arranged at the position of the opening;

the sewage bucket is arranged below the temporary storage chamber, a feeding hole is formed in the sewage bucket, the feeding hole is communicated with the opening of the temporary storage chamber through a pipeline, and an exhaust hole is formed in the sewage bucket;

and the ozone machine is positioned on one side of the sewage bucket, and a conveying pipeline for conveying ozone into the sewage bucket is arranged between the ozone machine and the sewage bucket.

Furthermore, the sewage barrels are provided with two, the openings in the bottom of the temporary storage chamber are also provided with two, and the two openings are communicated with the feeding holes of the two sewage barrels through pipelines respectively.

Furthermore, a boss with a triangular section is arranged between the two openings of the temporary storage chamber.

Further, the air blowing device comprises two air pipes inclining upwards and fans arranged in the two air pipes, and the two air pipes are respectively fixed on the side wall of the lower end of the freezing tank and extend into the interlayer.

Furthermore, an arc-shaped air channel is further fixed at the position, close to the upper side, of the side wall inside the freezing tank, and a fan is also arranged in the arc-shaped air channel.

Further, input channel is close to the input hole one end of freezing jar and is equipped with revolving door subassembly, and revolving door subassembly is connected to the stand in the input channel including fixed arc stationary blade on the inner wall of input channel both sides and rotation, the circumference equipartition has at least three door leaf on the stand, the length of door leaf is the same with the radius shape of arc stationary blade, and on the one side edge butt of door leaf can be to the stationary blade, the upper and lower edge butt respectively to the upper end both ends of input channel.

Furthermore, one side and the upper and lower edges of the door leaf are respectively and fixedly connected with a sealing rubber sheet.

Further, water atomizer is including setting up a plurality of inlet tubes in both ends about the gas collecting tank, and the one end of every inlet tube stretches into the gas collecting tank and stretches into spiral airflow channel, and the one end that the inlet tube stretched into among the spiral airflow channel is connected with atomizer, and the inlet tube other end is connected with the raceway, be equipped with the suction pump between slop pail and the gas collecting tank, defeated water piping connection is to the play water end of suction pump, and the end of drawing water of suction pump is connected with the drinking-water pipe, and the drinking-water pipe other end stretches into in the slop pail.

Further, the bottom of the freezing tank is conical.

Furthermore, a closing plate is rotatably connected to a blanking hole of the freezing tank, and a rotating shaft of the closing plate extends to the outer side of the freezing tank.

This use novel embodiment has following advantage: through the setting of gas collection tank, freezing jar, the room of keeping in, slop pail and ozone machine, after inputing gaseous pollutants into gas collection tank, can make it form suspension by the liquefaction, and enter into the freezer and form the hail, enter into the slop pail through the room of keeping in at last, thereby make some impurity in the gaseous pollutants melt into the aquatic, later utilize ozone machine to make the ozone input back in the slop pail, further purify the air wherein, in order to be purified gaseous pollutants totally, and make the gaseous position discharge from the exhaust hole after purifying, purify gaseous pollutants like this, but the at utmost with gaseous pollutants clean, improve gaseous pollutants's purification rate.

Drawings

In order to more clearly illustrate the present invention using the new embodiment or the prior art, the drawings that are needed in the description of the embodiment or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structures, ratios, sizes, and the like shown in the specification are only used for matching with the contents disclosed in the specification, so that those skilled in the art can understand and read the description, and the description is not used for limiting the limit conditions of the novel implementation of the present invention, so that the essential significance of the technology is not provided, and any structural modification, ratio relationship change or size adjustment should still fall within the scope of the technical contents of the novel disclosure without affecting the efficacy and the achievable purpose of the novel implementation.

FIG. 1 is a simplified schematic diagram of a heavy contaminated gas treatment system according to the present invention.

Fig. 2 is a schematic top view of a gas collection tank for a heavy contaminated gas treatment system using a novel embodiment of the present invention.

FIG. 3 is a schematic view of a revolving door assembly of a heavy contaminated gas treatment system according to the present invention, using a novel embodiment.

In the figure: 1. a gas collection tank; 11. a helical airflow channel; 2. a freezing tank; 21. an input channel; 22. A blanking hole; 31. an air duct; 32. a fan; 33. an arc-shaped air duct; 4. a temporary storage chamber; 41. an opening; 42. A valve; 43. a boss; 5. a sewage bucket; 51. an exhaust hole; 6. an ozone machine; 71. a fixing sheet; 72. a door leaf; 8. a water spraying device; 81. a water inlet pipe; 82. a water delivery pipe; 83. a water pump; 84. a water pumping pipe.

Detailed Description

The present invention is described in terms of particular embodiments, and other advantages and benefits of the present invention will become apparent to those skilled in the art from the present disclosure. All other embodiments, which can be derived by a person skilled in the art from the embodiments given in the present application without inventive step, are within the scope of the protection of the present application.

Examples

A heavy polluted gas treatment system is shown in figures 1 and 2 and comprises a gas collection tank 1, a freezing tank 2, a temporary storage chamber 4, a sewage bucket 5 and an ozone machine 6, wherein the gas collection tank 1 is used for collecting polluted gas, the wall thickness of the gas collection tank 1 is thicker, a spiral airflow channel 11 from inside to outside is arranged on the side wall of the gas collection tank 1, a collecting pipe used for inputting the polluted gas into the tank body is arranged at the upper end of the gas collection tank 1, and a water spraying device 8 is arranged in the spiral airflow channel 11. After the polluted gas is input into the gas collection tank 1 through the collection pipe, the polluted gas runs along the spiral airflow channel 11 to the outside and is finally output, and water can be sprayed into the spiral airflow channel 11 by the water spraying device 8 during the output process, so that impurities in the polluted gas are absorbed, and the gas forms a liquefied suspension.

Be equipped with the intermediate layer on freezing jar 2's lateral wall to be provided with the refrigerator at the intermediate layer, lower extreme lateral wall is equipped with the air-blast device that bloies to the direction of sloping upward in freezing jar 2, and the air-blast device is provided with two, and it is alternately to blow off the wind, still be equipped with the input hole of inputing gas in the cryovial on freezing jar 2 lateral wall, the input hole does not communicate with freezing jar 2's intermediate layer each other, be connected with input channel 21 between the output of the spiral airflow channel 11 of gas collection jar 1 and the input hole of freezing jar 2, and still be equipped with blanking hole 22 in freezing jar 2 bottom.

The suspension liquefied in the spiral air flow channel 11 can enter the freezing tank 2 through the input channel 21, then the cross wind blown by the air blowing device can suspend the liquefied suspension to the upper end of the freezing tank 2, the freezing tank 2 can be stably lowered due to the operation of the refrigerator, then the floating suspension can gradually form ice crystals and can be condensed into hail, when the condensed hail is large, the weight of the hail is relatively large, the wind blown by the air blowing device is not enough to support the hail to suspend, and the hail can fall to the bottom of the freezing tank 2 and fall out from the position of the blanking port.

Wherein the bottom of the freezing cylinder 2 is conical, so that hail can smoothly fall from the blanking hole 22 at the bottom of the freezing cylinder 2 after falling. The blanking hole 22 of the freezing tank 2 is rotatably connected with a closing plate, the rotating shaft of the closing plate extends to the outer side of the freezing tank 2, the closing plate can be driven to rotate through the rotating shaft to control the opening and closing of the blanking port, the rotation of the rotating shaft can be controlled manually, and a motor can be connected with the rotating shaft to control the opening and closing of the closing plate through the motor.

Wherein the blower includes two upwards tuber pipes 31 of slope and fixed connection to two tuber pipes 31 in fan 32, two tuber pipes 31 respectively fixed connection to freeze on the lateral wall of jar 2 lower extreme to extend to the interlayer, make fan 32 during operation, can blow to the oblique top and form cross wind, in addition because tuber pipe 31 extends to the interlayer, can drive out and blow to freezing jar 2 top with the air conditioning wherein after opening fan 32, thereby the coagulation of suspension above freezing jar 2 has been aggravated.

The arc-shaped air channel 33 is fixedly connected to the position, close to the upper side, of the side wall inside the freezing tank 2, the fan 32 is also fixedly connected to the inside of the arc-shaped air channel 33, so that when the fan 32 is operated, air which runs around the side wall of the freezing tank 2 can be formed in the freezing tank 2, and after the liquefied suspension enters the freezing tank 2, the air which runs around the side wall of the freezing pipe can drive the suspension to be rapidly and uniformly dispersed into the space of the freezing tank 2.

As shown in fig. 3, a rotating door assembly is disposed at one end of the input channel 21 close to the input hole of the freezing cylinder 2, the rotating door assembly includes arc-shaped fixing pieces 71 fixedly connected to inner walls of two sides of the input channel 21, a vertical column is disposed in the input channel 21 at the center of the two fixing pieces 71, and upper and lower ends of the vertical column are respectively rotatably connected to upper and lower ends of the input channel 21, at least three door pieces 72 are uniformly distributed on the vertical column at the circumference, the length of the door pieces 72 is the same as the radius of the arc-shaped fixing pieces 71, one side edge of the door pieces 72 can abut against the fixing pieces 71, upper and lower edges of the door pieces 72 respectively abut against the upper ends of the input channel 21, a motor for driving the vertical column to rotate is disposed at the upper end of the input channel 21, wherein when the vertical column rotates, the two door pieces 72 can always abut.

In the process of running of the motor, each door sheet 72 can be driven to rotate slowly, because at least three door sheets 72 are arranged on the upright column, two door sheets 72 are attached to the fixed sheet 71, a part of suspension liquid exists between the third door sheet 72 and the adjacent door sheet 72, the suspension liquid between the two door sheets 72 can be input into the freezing tank 2 along with the movement of the door sheets 72, and because air is always blown into the freezing tank 2, the suspension liquid can be quickly blown above the freezing tank 2, then the rotating door assembly is rotated at intervals, and the suspension liquid in the input channel 21 can be gradually conveyed into the freezing tank 2.

Sealing rubber sheets are fixedly connected to one side and the upper edge and the lower edge of the door sheet 72 respectively, and the sealing performance between the door sheet 72 and the input channel 21 can be further improved by the aid of the sealing rubber sheets, and the door sheet 72 cannot be influenced in rotation.

The temporary storage chamber 4 is fixedly connected to the bottom of the freezing tank 2, two sides of the bottom of the temporary storage chamber 4 are respectively provided with an opening 41, and the positions of the two openings 41 are respectively provided with a valve 42, the opening and the closing of the opening 41 can be controlled by the valve 42, so that hail entering the temporary storage chamber 4 falls out,

the number of the sewage barrels 5 is two, a certain amount of water is filled in the sewage barrels 5, the two sewage barrels 5 are arranged below the temporary storage chamber 4, feeding holes are formed in the sewage barrels 5, the feeding holes of the two sewage barrels 5 are communicated with the two openings 41 of the temporary storage chamber 4 through pipelines, the sewage barrels 5 are further provided with exhaust holes 51, and exhaust valves are arranged on the exhaust holes 51; the ozone machine 6 is arranged at one side of the sewage bucket 5, and a conveying pipeline for conveying ozone into the sewage bucket 5 is arranged between the ozone machine 6 and the sewage bucket 5.

After opening the valve 42 of the buffer chamber 4, hail therein falls into the slop pail 5 and melts, some gas floats to the water surface and other soluble impurities are thoroughly dissolved into the water. After ozone produced by the ozone machine 6 is input into the slop pail 5, some of the gas can be purified to form fresh air, and after purification, the exhaust hole 51 on the slop pail 5 can be opened to exhaust the purified air. When the device is used, one of the valves 42 is opened to put hail into only one of the slop tubs 5, and when air in the slop tub 5 is purified, the other valve 42 is opened after the valve 42 is closed for a certain time to inject hail into the other slop tub 5, so that the polluted air is continuously purified.

In addition, when the sewage in one of the sewage barrels 5 is full and needs to be treated and the clean water in the other sewage barrel 5 is not used up, the valve in the temporary storage chamber 4 needs to be closed, hail is temporarily stored in the temporary storage chamber 4, and the valve of the sewage barrel 5 is opened to discharge the sewage after the clean water is used up. At this point the other lagoon has been treated.

A projection 43 with a triangular cross-section is provided in the intermediate storage space 4 between the two openings 41, so that after opening one of the valves 42, hail can fall smoothly from the position of the opening 41, avoiding the hail from staying in the position between the two openings 41.

The water spraying device 8 comprises a plurality of water inlet pipes 81 arranged at the upper end and the lower end of the gas collecting tank 1, one end of each water inlet pipe 81 extends into the gas collecting tank 1 and extends into the spiral airflow channel 11, one end of each water inlet pipe 81 extending into the spiral airflow channel 11 is connected with an atomizing spray head, the other end of each water inlet pipe 81 is connected with a water conveying pipe 82, a water suction pump 83 is arranged between the sewage bucket 5 and the gas collecting tank 1, the water conveying pipe 82 is connected to the water outlet end of the water suction pump 83, a switch valve 42 is arranged on the water conveying pipe 82, the water suction end of the water suction pump 83 is connected with a water suction pipe 84, the other end of the water suction pipe 84 extends into the sewage bucket 5, water in the sewage bucket 5 can be extracted for use, then suspension forms hail and returns to the sewage bucket 5 to be melted, water recycling is achieved.

This use is novel through gas collecting tank 1, freezing jar 2, the room 4 of keeping in, the setting of slop pail 5 and ozone machine 6, after inputing gaseous pollutants into gas collecting tank 1, can make it be liquefied and form suspension, and enter into the freezer and form the hail, enter into slop pail 5 through room 4 of keeping in at last, thereby make some impurity in the gaseous pollutants melt into the aquatic, later utilize ozone that ozone machine 6 made to input back in slop pail 5, further purify the air wherein, with the gaseous pollutants totally by purification, and make the gaseous position discharge from exhaust hole 51 after the pollution, purify gaseous pollutants like this, but the at utmost with gaseous pollutants clean, improve gaseous pollutants's purification rate.

Although the invention has been described in detail with respect to its general and specific embodiments, it will be apparent to those skilled in the art that many modifications and variations are possible in light of the above teaching. Accordingly, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims

1. A heavy contaminated gas treatment system, characterized by: the method comprises the following steps:

2. The heavy contaminated gas treatment system according to claim 1, wherein: the sewage bucket is provided with two, the opening of the bottom of the temporary storage chamber is also provided with two, and the two openings are respectively communicated with the feeding holes of the two sewage buckets through pipelines.

3. The heavy contaminated gas treatment system according to claim 2, wherein: and a boss with a triangular section is arranged between the two openings of the temporary storage chamber.

4. The heavy contaminated gas treatment system according to claim 1, wherein: the air blowing device comprises two air pipes inclining upwards and fans arranged in the two air pipes, and the two air pipes are respectively fixed on the side wall of the lower end of the freezing tank and extend into the interlayer.

5. The heavy contaminated gas treatment system according to claim 4, wherein: an arc-shaped air channel is further fixed at the position, close to the upper portion, of the side wall inside the freezing tank, and a fan is further arranged in the arc-shaped air channel.

6. The heavy contaminated gas treatment system according to claim 1, wherein: input channel is close to input hole one end of freezing jar and is equipped with revolving door subassembly, and revolving door subassembly is connected to the stand in the input channel including fixed arc stationary blade on the inner wall of input channel both sides and rotation, the circumference equipartition has at least three door leaf on the stand, the length of door leaf is the same with the radius of arc stationary blade, and on the one side edge butt of door leaf can be to the stationary blade, the upper and lower edge butt respectively to the upper end both ends of input channel.

7. The heavy contaminated gas treatment system according to claim 6, wherein: and one side and the upper and lower edges of the door sheet are respectively and fixedly connected with a sealing rubber sheet.

8. The heavy contaminated gas treatment system according to claim 1, wherein: the water atomizer is including setting up a plurality of inlet tubes in both ends about the gas collecting tank, and the one end of every inlet tube stretches into the gas collecting tank and stretches into spiral airflow channel, and the one end that the inlet tube stretched into among the spiral airflow channel is connected with the atomizer, and the inlet tube other end is connected with the raceway, be equipped with the suction pump between slop pail and the gas collecting tank, raceway connection is to the water outlet end of suction pump, and the end of drawing water of suction pump is connected with the drinking-water pipe, and the drinking-water pipe other end stretches into in the slop pail.

9. The heavy contaminated gas treatment system according to claim 1, wherein: the bottom of the freezing tank is conical.

10. The heavy contaminated gas treatment system according to claim 1, wherein: the material dropping hole of the freezing tank is rotatably connected with a closing plate, and a rotating shaft of the closing plate extends to the outer side of the freezing tank.