CN115448405A

CN115448405A - Sewage treatment pond waste gas collection device

Info

Publication number: CN115448405A
Application number: CN202211221784.1A
Authority: CN
Inventors: 姚跃辉; 卜鹏; 李亚辉; 雷继昌; 贾小军; 周甲甲; 高龙飞; 张楠; 史浩斌; 柳泽宇; 雷武鹏
Original assignee: Shaanxi Xuqiang Rui Clean Energy Co ltd
Current assignee: Shaanxi Xuqiang Rui Clean Energy Co ltd
Priority date: 2022-10-08
Filing date: 2022-10-08
Publication date: 2022-12-09
Anticipated expiration: 2042-10-08
Also published as: CN115448405B

Abstract

The invention relates to the field of sewage treatment, and discloses a waste gas collecting device for a sewage treatment pool, which comprises a stabilizing base, wherein one side of the stabilizing base is fixedly connected with a supporting frame, the top end of the stabilizing base is connected with an exhaust fan, and one side of the exhaust fan is connected with a flow guide pipeline: the bottom end of the flow guide pipeline is connected with a flow guide structure, the flow guide structure comprises an inverted Y-shaped channel, and the inverted Y-shaped channel is connected with the flow guide pipeline; open and close the structure, one side that the support frame is close to the stabilization base is equipped with opens and close the structure, and opens and close the structure and include the electro-hydraulic pressure push rod, and one side fixed connection of electro-hydraulic pressure push rod and stabilization base. The invention has the advantages that the channel is opened and closed through the opening and closing structure, sewage flows to the other side by inclining the U-shaped bottom groove after the channel on one side is sealed, the inclination of the U-shaped bottom groove is dragged through the transmission process of the opening and closing structure, so that the heights of the reaction bins on the two sides are different, and the sewage is moved through the hydraulic pressure difference, thereby achieving the effect of stirring the sewage.

Description

Sewage treatment pond waste gas collection device

Technical Field

The invention relates to the field of waste gas treatment, in particular to a waste gas collecting device of a sewage treatment pool.

Background

Various strong acid, strong base and organic solvent can be generated in the chemical experiment operation process, in addition, waste liquid generated when various experimental tools and equipment are cleaned, such as various glass containers, sample feeding bottles and sample preparation equipment, can be intensively treated, and the waste liquid contains strong acid, strong base and organic matters;

the waste gas is generated because the sewage treatment tank is placed outdoors, high-temperature liquid is evaporated, and different sewage in the sewage treatment tank are mixed and reacted to generate gas containing strong acid, strong alkali and organic matters, the organic gas reaction has strong smell, the strong acid and strong alkali gas has strong corrosivity, and the components of the acidic waste gas are generally hydrogen sulfide, chlorine, carbon dioxide, sulfuric acid, hydrochloric acid, nitric acid and other acidic gases; the alkaline waste gas is alkaline components such as sodium hydroxide, calcium hydroxide, carbon hydroxide and ammonia gas, an acidic medicament or an alkaline medicament is required to be added in the acid-base waste gas treatment process to carry out acid-base neutralization chemical reaction with the sewage to be treated, the sewage purification effect is achieved, and the purified sewage cannot generate gas containing strong acid, strong base and organic matters due to liquid evaporation;

the traditional sewage pool is stored with more liquid and is in a standing state, sewage at the bottom cannot volatilize to generate waste gas, the traditional solution method is to use a stirring rod to stir the sewage, but the problem that strong acid, strong base and organic matters corrode and erode the stirring rod with a thin appearance exists, the stirring rod is easy to break, in addition, the stirring rod needs a motor as a power source, the motor is placed in the sewage pool in two ways, the environment of the strong acid and the strong base can corrode the motor, the motor is placed outside the sewage pool, but the connection part of the stirring rod and the sewage pool during rotation cannot be sealed, and when the stirring rod is sealed by a rubber ring, the stirring rod rotates at a high speed to generate larger heat to damage the rubber ring;

traditional exhaust gas collection device is filtering back to waste gas, and long-time the use needs to dismantle the clearance to filtering, leads to whole equipment to shut down the processing, and inconvenient realization serialization exhaust-gas treatment operation when dismantling the clearance to filtering piece influences the treatment effeciency, shuts down simultaneously and start process loss, influences equipment availability factor and life-span.

Disclosure of Invention

The invention aims to provide a wastewater collection device of a sewage treatment tank, which aims to solve the problems in the background technology.

The technical scheme of the invention is as follows: the utility model provides a sewage treatment pond waste gas collection device, includes the stabilizing base, one side fixedly connected with support frame of stabilizing the base, the top of stabilizing the base is connected with the air exhauster, and one side of air exhauster is connected with the water conservancy diversion pipeline:

the bottom end of the diversion pipeline is connected with a diversion structure, the diversion structure comprises an inverted Y-shaped channel, and the top end of the inverted Y-shaped channel is connected with the bottom end of the diversion pipeline;

the opening and closing structure is arranged on one side, close to the stable base, of the support frame and comprises an electric hydraulic push rod, and the electric hydraulic push rod is fixedly connected with one side of the stable base;

the cleaning structure, the bottom of opening and close the structure is equipped with the cleaning structure, and the cleaning structure includes the connecting axle, and through connection between connecting axle and the support frame.

Furthermore, the bottom of the type of falling Y passageway is equipped with soft flexible pipe, and the bottom of soft flexible pipe is equipped with the reaction storehouse, the bottom in reaction storehouse is equipped with U type kerve, and U type kerve is the U type appearance of rigid material, the reaction storehouse is equipped with two sets ofly, and two sets ofly react the storehouse respectively with the top through connection of U type kerve, the bottom and the ground contact of U type kerve are connected.

Furthermore, the top of U type kerve is connected with the arc honeycomb duct, and the arc honeycomb duct is the pipeline appearance of returning the shape.

Further, the output of electro-hydraulic pressure push rod is equipped with the closing plate, and the both ends of closing plate are equipped with the spout, closing plate and electro-hydraulic pressure push rod's output sliding connection, the bottom of closing plate both sides is connected with the sealing rubber piece, and the sealing rubber piece is soft material, the both sides of sealing rubber piece and the type of falling Y passageway between be connected, the top of closing plate is connected with the protection and supports the piece.

Further, the one end that the protection was kept away from to the closing plate and is supported the piece is connected with first gear, and the bottom of first gear is connected with the second gear, be the rodent transmission relation between second gear and the first gear, the one end contact of second gear is connected with the bearing rack area, and is the rodent transmission relation between bearing rack area and the second gear, the bottom and the reaction bin fixed connection of bearing rack area both sides.

Further, be the rodent transmission relation between second gear and the third gear, the one end and the connecting axle fixed connection of third gear, and the first fluted disc of one end fixedly connected with of third gear is kept away from to the connecting axle, and the both sides contact of first fluted disc is connected with the second fluted disc, the second fluted disc is equipped with two sets of symmetric distribution.

Further, the one end fixedly connected with that the third gear was kept away from to the support frame supports the cardboard, and the one side of supporting the cardboard runs through there is first outer ratch, the opposite side of supporting the cardboard runs through there is the outer ratch of second, and the surface of the outer ratch of second and first outer ratch all is equipped with the rodent, run through on the outer ratch of second and connect interior ring gear, connect between interior ring gear, the outer ratch of first outer ratch and the second through connection and be the rodent block form.

Furthermore, one side fixedly connected with third fluted disc of first outer fluted disc is kept away from to the outer fluted disc of second, and the bottom of keeping away from outer fluted disc of second one side of third fluted disc is equipped with the fourth fluted disc, be the rodent drive relation between fourth fluted disc and the third fluted disc.

Further, one side that third fluted disc was kept away from to fourth fluted disc is connected with the filtration sieve, and the surface of filtering the sieve is equipped with evenly distributed's through hole, the border department of the top of filtering the sieve and bottom all inlays and has the sealing washer, and the sealing washer has elasticity.

The invention provides a waste gas collecting device of a sewage treatment pool through improvement, compared with the prior art, the waste gas collecting device has the following improvements and advantages:

firstly, the channel is opened and closed through the opening and closing structure, after the channel on one side is sealed, sewage flows to the other side through the inclined U-shaped bottom groove, when the sewage treatment device is used, an electric hydraulic push rod is used as a power source, the inclined U-shaped bottom groove is dragged through the transmission process of the opening and closing structure, so that the heights of reaction bins on two sides are different, under the action of liquid level difference, high-level wastewater of the U-shaped bottom groove can flow to a low level, the flowing of the wastewater is realized, the sewage moves in the reaction bins through the liquid level difference, the effect of stirring the sewage is achieved, the sewage in the sewage tank can fully volatilize waste gas, and the sewage tank is safer and energy-saving because no other mechanical structures and motors are arranged except for the sewage tank body; the traditional sewage pool is stored with more liquid and is in a standing state, sewage at the bottom cannot volatilize, then a stirring rod is used for stirring the sewage, strong acid, strong base and organic matters can corrode and corrode the stirring rod with a thin appearance, so that the stirring rod is broken, in addition, the stirring rod needs a motor as a power source, the motor has two placing modes, one mode is that the stirring rod is placed inside the sewage pool, the environment of the strong acid and the strong base can corrode the motor, the other mode is that the motor is placed outside the sewage pool, but the connection part of the stirring rod during rotation and the sewage pool cannot be sealed, and if the stirring rod is sealed by a rubber ring, large heat can be generated to damage the rubber ring;

the working principle of the structure is that the bottom end of a flow guide pipeline is connected with an inverted Y-shaped channel, the inverted Y-shaped channel is connected with reaction bins on two sides of the bottom end through flexible extension pipes, the bottom ends of two groups of reaction bins are connected with a U-shaped bottom groove, an electric hydraulic push rod is started to further extend and retract the extension rod, a sealing plate is pushed to turn over back and forth, and the pipeline on one side is convenient to seal; the reaction bin is pulled by driving and moving the bearing rack belt, the flexible telescopic pipe is made of flexible materials and can stretch, so that the U-shaped bottom groove is inclined, the heights of the two groups of reaction bins are different, when the height of liquid in the reaction bin on one side exceeds the highest point in the arc-shaped flow guide pipe, the liquid can flow into the U-shaped bottom groove and reaches the reaction bin on the other side from the U-shaped bottom groove, the siphonage phenomenon is caused by the difference between the attraction force and the potential energy between liquid molecules, namely, the water flows to the lower part after rising by utilizing the pressure difference of a water column, the water surface of the pipe opening bears different atmospheric pressures, the water flows to the side with small pressure from the side with large pressure until the atmospheric pressures on the two sides are equal, the water surfaces in the container become the same height, and the water stops flowing; the sewage can move back and forth in the U-shaped bottom groove without stirring, so that the sewage is fully volatilized to generate the waste gas of strong acid and strong base, and the problem that the sewage at the bottom of the waste water can not be volatilized and reacted is avoided; the opening and closing structure has the working principle that the sealing plate is driven to turn over through the expansion of the electric hydraulic push rod, the sealing plate drives the first gear to rotate, the first gear drives the second gear to rotate, the second gear drives the third gear to rotate, and after the pipeline on one side of the sealing side of the protection abutting block is sealed, the second gear rotates in the opposite direction, so that the reaction bin on the sealing side of the inverted Y-shaped channel rises; sewage flows to the inverted Y-shaped channel at the open side.

Second, it is rotatory to drive the third gear through the second gear, the third gear drives the rotation of first fluted disc, first fluted disc drives the rotation of second fluted disc through the rodent transmission, second fluted disc one side is equipped with the third fluted disc, make first external tooth pole rotatory time can drive the rotation of second external tooth pole and drive the rotation of third fluted disc again through stirring and connecting the inner ring gear, the third fluted disc drives the rotation of fourth fluted disc through the rodent transmission, fourth fluted disc drives the filter screen and follows the bottom roll-off of the type of falling Y passageway, be convenient for clean the filter screen, the effect of sealing washer is the junction of sealed filter screen and the type of falling Y passageway, the advantage of this structure lies in can filtering the inside suspended particles and the peculiar smell of waste gas production when waste gas is collected through filtering the screen, and can take out the filter screen through driven mode and clean, simultaneously, the cooperation is to opening and closing of the single channel in the type of falling Y passageway, when the single channel is closed, can take out the filter screen in this passageway, can not influence the extraction of waste gas, realize serialization waste gas treatment operation.

Drawings

The invention is further explained below with reference to the figures and examples:

FIG. 1 is a schematic front sectional view of the present invention;

FIG. 2 is a schematic rear view of the cross-sectional structure of the present invention;

FIG. 3 is a schematic top view of the cleaning structure of the present invention;

FIG. 4 is a side view of the connecting inner ring and first outer rack of the present invention;

FIG. 5 is an enlarged view of a portion of FIG. 1;

FIG. 6 is an enlarged view of a portion of the invention at B of FIG. 2;

FIG. 7 is an enlarged view of a portion of the present invention at C of FIG. 3;

FIG. 8 is a partially enlarged view of the flow guide structure of the present invention;

FIG. 9 is a partially enlarged view of the inclined state of the flow guiding structure according to the present invention;

fig. 10 is a partially enlarged view of the protection resisting block of the present invention.

Description of reference numerals: 1. a stabilizing base; 2. a support frame; 3. a diversion pipeline; 4. an exhaust fan; 5. an opening and closing structure; 501. an electric hydraulic push rod; 502. a sealing plate; 503. a protection resisting block; 504. a first gear; 505. a second gear; 506. sealing the rubber sheet; 507. a load bearing toothed belt; 6. cleaning the structure; 601. a third gear; 602. a first fluted disc; 603. a connecting shaft; 604. a supporting clamping plate; 605. a second fluted disc; 606. a third fluted disc; 607. connecting the inner gear ring; 608. a first external toothed bar; 609. a second outer rack bar; 610. a fourth fluted disc; 611. a seal ring; 612. filtering the sieve plate; 7. a flow guide structure; 701. an inverted Y-shaped channel; 702. a flexible telescopic pipe; 703. a reaction bin; 704. an arc-shaped guide pipe; 705. u-shaped bottom groove.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings 1 to fig. 1, and the technical solutions in the embodiments of the present invention will be clearly and completely described. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

The invention provides a wastewater treatment pool wastewater collection device through improvement, as shown in figures 1-10, the wastewater treatment pool wastewater collection device comprises a stable base 1, one side of the stable base 1 is fixedly connected with a support frame 2, the top end of the stable base 1 is connected with an exhaust fan 4, and one side of the exhaust fan 4 is connected with a diversion pipeline 3:

the bottom end of the guide pipeline 3 is connected with the guide structure 7, the guide structure 7 comprises an inverted Y-shaped channel 701, and the top end of the inverted Y-shaped channel 701 is connected with the bottom end of the guide pipeline 3;

the bottom end of the inverted Y-shaped channel 701 is provided with a flexible telescopic pipe 702, the bottom end of the flexible telescopic pipe 702 is provided with a reaction chamber 703, the inverted Y-shaped channel 701 is connected with the reaction chambers 703 at two sides of the bottom end through the flexible telescopic pipe 702, the bottom end of the reaction chamber 703 is provided with a U-shaped bottom groove 705, the bottom ends of the two groups of reaction chambers 703 are connected with the U-shaped bottom groove 705, because the flexible telescopic pipe 702 is made of flexible materials, the U-shaped bottom groove 705 inclines, the U-shaped bottom groove 705 is in a U-shaped shape made of hard materials, the reaction chambers 703 are provided with two groups, the two groups of reaction chambers 703 are respectively connected with the top end of the U-shaped bottom groove 705 in a penetrating manner, and the bottom end of the U-shaped bottom groove 705 is in contact connection with the ground;

the top end of the U-shaped bottom groove 705 is connected with an arc-shaped flow guide pipe 704, the heights of the two groups of reaction bins 703 are different, when the height of liquid in the reaction bin 703 at one side exceeds the highest point in the arc-shaped flow guide pipe 704, the liquid can flow into the U-shaped bottom groove 705, the arc-shaped flow guide pipe 704 is in a shape of a zigzag pipeline and reaches the reaction bin 703 at the other side from the U-shaped bottom groove 705, the siphonage is caused by the difference between the attraction force and the potential energy of liquid molecules, namely, the water rises by utilizing the pressure difference of a water column and then flows to the lower part, the water surface of a pipe opening bears different atmospheric pressures, the water flows from the side with the higher pressure to the side with the lower pressure until the atmospheric pressures at the two sides are equal, the water surfaces in the container become the same height, and the water stops flowing; the sewage can move back and forth in the U-shaped bottom groove 705 without stirring, so that the sewage is fully volatilized to generate waste gas of strong acid and strong base, and the problem that the sewage at the bottom of the wastewater cannot be volatilized and reacted is avoided;

the sewage treatment device comprises an opening and closing structure 5, wherein the opening and closing structure 5 is arranged on one side, close to a stable base 1, of a support frame 2, the opening and closing structure 5 comprises an electric hydraulic push rod 501, a channel is opened and closed through the opening and closing structure 5, sewage flows to the other side through an inclined U-shaped bottom groove 705 after the channel on one side is sealed, the electric hydraulic push rod 501 is fixedly connected with one side of the stable base 1, when the sewage treatment device is used, the electric hydraulic push rod 501 serves as a power source, the U-shaped bottom groove 705 is dragged to incline through the transmission process of the opening and closing structure 5, so that the heights of reaction bins 703 on two sides are different, the sewage moves inside the reaction bins 703 through hydraulic pressure difference, the effect of stirring the sewage is achieved, the waste gas can be fully volatilized by the sewage in a sewage pool, and the sewage pool body is safe and energy-saving as no other mechanical structures or motors exist; the traditional sewage pool is stored with more liquid in the sewage pool and is in a standing state, sewage at the bottom cannot volatilize, then a stirring rod is used for stirring the sewage, strong acid, strong base and organic matters can corrode and erode the stirring rod with a thin appearance to cause the breakage of the stirring rod, in addition, the stirring rod needs a motor as a power source, the motor has two placing modes, one mode is that the stirring rod is placed in the sewage pool, the environment of the strong acid and the strong base can corrode the motor, the other mode is that the motor is placed outside the sewage pool, but the connection part of the stirring rod during rotation and the sewage pool cannot be sealed, and if the stirring rod is sealed by a rubber ring, large heat can be generated to cause the damage of the rubber ring;

the telescopic rod is further stretched by starting the electric hydraulic push rod 501, the sealing plate 502 is arranged at the output end of the electric hydraulic push rod 501, and the sealing plate 502 is pushed to turn over back and forth, so that a pipeline on one side can be conveniently sealed; the two ends of the sealing plate 502 are provided with sliding grooves, the opening and closing structure 5 has the working principle that the sealing plate 502 is driven to turn over by the extension and retraction of the electric hydraulic push rod 501, the sealing plate 502 is connected with the output end of the electric hydraulic push rod 501 in a sliding manner, the bottom ends of the two sides of the sealing plate 502 are connected with the sealing rubber sheet 506, the sealing rubber sheet 506 is made of soft material, the two sides of the sealing rubber sheet 506 are connected with the inverted Y-shaped channel 701, and the top end of the sealing plate 502 is connected with the protection abutting block 503;

one end, far away from the protection resisting block 503, of the sealing plate 502 is connected with a first gear 504, the sealing plate 502 drives the first gear 504 to rotate, the bottom end of the first gear 504 is connected with a second gear 505, the second gear 505 and the first gear 504 are in a meshed transmission relationship, the first gear 504 drives the second gear 505 to rotate, and after the protection resisting block 503 seals a pipeline on one side, the second gear 505 rotates in the opposite direction, so that the reaction bin 703 on the sealed side of the inverted Y-shaped channel 701 rises; sewage flows to the inverted Y-shaped channel 701 on the open side, one end of the second gear 505 is connected with a bearing toothed belt 507 in a contact manner, the reaction bin 703 is pulled by driving the bearing toothed belt 507 to move, the bearing toothed belt 507 and the second gear 505 are in a rodent transmission relationship, and the bottom ends of two sides of the bearing toothed belt 507 are fixedly connected with the reaction bin 703;

the cleaning structure 6 is arranged at the bottom end of the opening and closing structure 5, the cleaning structure 6 comprises a connecting shaft 603, and the connecting shaft 603 is in penetrating connection with the support frame 2;

the second gear 505 and the third gear 601 are in a mesh tooth transmission relationship, the second gear 505 drives the third gear 601 to rotate, one end of the third gear 601 is fixedly connected with the connecting shaft 603, one end of the connecting shaft 603 far away from the third gear 601 is fixedly connected with a first toothed disc 602, the third gear 601 drives the first toothed disc 602 to rotate, two sides of the first toothed disc 602 are in contact connection with a second toothed disc 605, the first toothed disc 602 drives the second toothed disc 605 to rotate through mesh tooth transmission, and the second toothed disc 605 is provided with two groups of symmetrical distribution;

one end of the support frame 2, which is far away from the third gear 601, is fixedly connected with a support clamping plate 604, a first outer toothed bar 608 penetrates through one side of the support clamping plate 604, a second outer toothed bar 609 penetrates through the other side of the support clamping plate 604, the surfaces of the second outer toothed bar 609 and the first outer toothed bar 608 are provided with a toothed tooth, a connecting inner toothed ring 607 penetrates through the second outer toothed bar 609, and the connecting inner toothed ring 607, the first outer toothed bar 608 and the second outer toothed bar 609 are connected in a penetrating manner and are in a toothed tooth clamping shape;

a third fluted disc 606 is fixedly connected to one side of the second outer fluted bar 609 far away from the first outer fluted bar 608, a third fluted disc 606 is arranged on one side of the second fluted bar 605, the first outer fluted bar 608 can be driven to rotate by poking and connecting the inner fluted ring 607, so that the first outer fluted bar 608 can drive the second outer fluted bar 609 to rotate and then drive the third fluted disc 606 to rotate, a fourth fluted disc 610 is arranged at the bottom end of one side of the third fluted bar 606 far away from the second outer fluted bar 609, the third fluted disc 606 drives the fourth fluted disc 610 to rotate through the tooth meshing transmission, and the fourth fluted disc 610 and the third fluted disc 606 are in the tooth meshing transmission relationship; the side, far away from the third fluted disc 606, of the fourth fluted disc 610 is connected with a filtering sieve plate 612, the fourth fluted disc 610 drives the filtering sieve plate 612 to slide out from the bottom end of the inverted-Y-shaped channel 701, so that the filtering sieve plate 612 can be cleaned conveniently, through-holes uniformly distributed are formed in the surface of the filtering sieve plate 612, the structure has the advantages that the filtering sieve plate 612 can filter suspended particles and peculiar smells in waste gas generated during waste gas collection, the filtering sieve plate 612 can be detached in a transmission mode so that the waste gas can be cleaned conveniently, sealing rings 611 are embedded in the edges of the top end and the bottom end of the filtering sieve plate 612 and have elasticity, the sealing rings 611 serve to seal the connection position of the filtering sieve plate 612 and the inverted-Y-shaped channel 701, when the inverted-Y-shaped channel 701 on the sealed side of the sealing plate 502 is sealed, the inner toothed ring 607 can be connected with the first outer toothed rod 608 and the second outer toothed rod 609 in a sliding mode, and the filtering sieve plate 612 can be detached to clean the garbage on the surface of the filtering sieve plate 612.

The working principle is as follows: firstly, the bottom end of a flow guide pipeline 3 is connected with an inverted Y-shaped channel 701, the inverted Y-shaped channel 701 is connected with reaction bins 703 at two sides of the bottom end through flexible telescopic pipes 702, the bottom ends of two groups of reaction bins 703 are connected with a U-shaped bottom groove 705, the telescopic rods are further stretched by starting an electric hydraulic push rod 501, a sealing plate 502 is pushed to turn over back and forth, and the pipeline at one side is convenient to close; and the reaction bin 703 is pulled by driving the movable bearing rack belt 507, because the flexible telescopic pipe 702 is made of flexible material, the U-shaped bottom groove 705 is inclined, the heights of the two groups of reaction bins 703 are different, when the height of the liquid in the reaction bin 703 at one side exceeds the highest point in the arc-shaped guide pipe 704, the liquid can flow into the U-shaped bottom groove 705 and reach the reaction bin 703 at the other side from the U-shaped bottom groove 705.

Then, the electric hydraulic push rod 501 stretches and retracts to drive the sealing plate 502 to turn over, the sealing plate 502 drives the first gear 504 to rotate, the first gear 504 drives the second gear 505 to rotate, the second gear 505 drives the third gear 601 to rotate, and after the pipeline on one side of the inverted Y-shaped channel 701 is sealed by the protection abutting block 503, the second gear 505 rotates in the opposite direction, so that the reaction bin 703 on one side of the inverted Y-shaped channel 701 is lifted; the sewage flows toward the inverted Y-shaped passage 701 on the opened side.

Finally, the second gear 505 drives the third gear 601 to rotate, the third gear 601 drives the first fluted disc 602 to rotate, the first fluted disc 602 drives the second fluted disc 605 to rotate through the transmission of the rodent, one side of the second fluted disc 605 is provided with the third fluted disc 606, the first outer fluted bar 608 can be driven to rotate by stirring and connecting the inner fluted ring 607, the second outer fluted bar 609 can be driven to rotate when the first outer fluted bar 608 rotates, and then the third fluted disc 606 drives the fourth fluted disc 610 to rotate through the transmission of the rodent, the fourth fluted disc 610 drives the filtering sieve plate 612 to slide out from the bottom end of the inverted Y-shaped channel 701, so that the filtering sieve plate 612 can be cleaned conveniently, and the sealing ring 611 is used for sealing the connection between the filtering sieve plate 612 and the inverted Y-shaped channel 701.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. The utility model provides a sewage treatment pond waste gas collection device, includes stable base (1), one side fixedly connected with support frame (2) of stable base (1), the top of stable base (1) is connected with air exhauster (4), and one side of air exhauster (4) is connected with water conservancy diversion pipeline (3), its characterized in that:

the bottom end of the flow guide pipeline (3) is connected with the flow guide structure (7), the flow guide structure (7) comprises an inverted Y-shaped channel (701), and the top end of the inverted Y-shaped channel (701) is connected with the bottom end of the flow guide pipeline (3);

the opening and closing structure (5) is arranged on one side, close to the stable base (1), of the support frame (2), the opening and closing structure (5) comprises an electric hydraulic push rod (501), and the electric hydraulic push rod (501) is fixedly connected with one side of the stable base (1);

clearance structure (6), the bottom of opening and close structure (5) is equipped with clearance structure (6), and clearance structure (6) including connecting axle (603), and run through between connecting axle (603) and support frame (2) and be connected.

2. The wastewater treatment pond exhaust gas collection device of claim 1, wherein: the bottom of the inverted Y-shaped channel (701) is provided with a flexible telescopic pipe (702), the bottom of the flexible telescopic pipe (702) is provided with a reaction bin (703), the bottom of the reaction bin (703) is provided with a U-shaped bottom groove (705), the U-shaped bottom groove (705) is in a U-shaped shape made of hard materials, the reaction bins (703) are provided with two groups, the two groups of reaction bins (703) are respectively connected with the top end of the U-shaped bottom groove (705) in a penetrating manner, and the bottom end of the U-shaped bottom groove (705) is in contact connection with the ground.

3. A wastewater treatment pond exhaust gas collection device according to claim 2, wherein: the top end of the U-shaped bottom groove (705) is connected with an arc-shaped guide pipe (704), and the arc-shaped guide pipe (704) is in a shape of a square-turn pipeline.

4. A wastewater treatment pond exhaust gas collection device according to claim 3, wherein: the output of electro-hydraulic pressure push rod (501) is equipped with closing plate (502), and the both ends of closing plate (502) are equipped with the spout, the output sliding connection of closing plate (502) and electro-hydraulic pressure push rod (501), the bottom of closing plate (502) both sides is connected with sealing rubber piece (506), and sealing rubber piece (506) are soft material, connect between the both sides of sealing rubber piece (506) and type of falling Y passageway (701), the top of closing plate (502) is connected with the protection and supports piece (503).

5. The wastewater treatment pond exhaust gas collection device of claim 4, wherein: the one end that the protection was kept away from to sealing plate (502) supports piece (503) is connected with first gear (504), and the bottom of first gear (504) is connected with second gear (505), be the rodent transmission relation between second gear (505) and first gear (504), the one end contact of second gear (505) is connected with bearing rack strip (507), and is the rodent transmission relation between bearing rack strip (507) and second gear (505), the bottom and reaction chamber (703) fixed connection of bearing rack strip (507) both sides.

6. The wastewater treatment pond exhaust gas collection device of claim 5, wherein: be the rodent drive relation between second gear (505) and third gear (601), the one end and connecting axle (603) fixed connection of third gear (601), and the one end fixedly connected with first fluted disc (602) of third gear (601) are kept away from in connecting axle (603), and the both sides contact of first fluted disc (602) is connected with second fluted disc (605), second fluted disc (605) are equipped with two sets of symmetric distributions.

7. The wastewater treatment pond exhaust gas collection device of claim 6, wherein: one end fixedly connected with of third gear (601) is kept away from in support frame (2) supports cardboard (604), and the one side of supporting cardboard (604) is run through and is had first outer ratch (608), the opposite side of supporting cardboard (604) is run through and is had second outer ratch (609), and the surface of second outer ratch (609) and first outer ratch (608) all is equipped with the rodent, run through on second outer ratch (609) and connect interior ring gear (607), connect between interior ring gear (607), first outer ratch (608) and the second outer ratch (609) through connection and be the rodent block form.

8. A wastewater treatment basin wastewater collection device according to claim 7, characterized in that: one side of the second outer toothed bar (609) far away from the first outer toothed bar (608) is fixedly connected with a third toothed disc (606), the bottom end of one side of the third toothed disc (606) far away from the second outer toothed bar (609) is provided with a fourth toothed disc (610), and the fourth toothed disc (610) and the third toothed disc (606) are in a mesh transmission relationship.

9. A wastewater treatment basin wastewater collection device according to claim 8, characterized in that: one side that third fluted disc (606) was kept away from in fourth fluted disc (610) is connected with and filters sieve (612), and filters the surface of sieve (612) and be equipped with evenly distributed's through hole, the border department of the top of filtering sieve (612) and bottom all inlays and has sealing washer (611), and sealing washer (611) have elasticity.