CN113816530A - Sponge city seepage and drainage structure water circulation system - Google Patents

Abstract

The utility model relates to a drainage structures water circulating system is oozed in sponge city, it is including the header tank that connects gradually, the disinfection pond, the flocculation basin, sedimentation tank and filter, the header tank includes top open-ended collecting box and inside hollow reaction box, collecting box and reaction box pass through the drain pipe intercommunication, the reaction box passes through the delivery pipe intercommunication with the disinfection pond, the upper end of reaction box is fixed with the medicament case, the roof of reaction box is vertical to be fixed with the stay tube, the stay tube passes through the discharge pipe intercommunication with the medicament case, be provided with the control mechanism that can control the discharge end of discharge pipe and open in the reaction box. Discharge the disinfectant through arranging the pencil in to the supporting tube, then the disinfectant enters into the reaction box, and when the sewage in the collecting box got into the reaction box in, the disinfectant can carry out the disinfection operation to sewage earlier, then sewage enters into the disinfection pond through the delivery pipe, and the disinfection operation in advance of sewage can be realized to this design, reduces the risk that the interior bacterium of sewage increases, makes things convenient for the disinfection operation of disinfection pond to sewage.

Description

Sponge city seepage and drainage structure water circulation system

Technical Field

The application relates to the field of water circulation systems, in particular to a water circulation system with a sponge city seepage and drainage structure.

Background

The water circulation system is a system for collecting and recycling sewage or rainwater, and the problem of water resource waste is obviously solved.

A water circulation system in the related art generally includes a water collection tank, a disinfection tank, a flocculation tank, a sedimentation tank, and a filter, which are connected in sequence, wherein the water collection tank is used for collecting rainwater or sewage, and then the rainwater or sewage in the water collection tank enters the disinfection tank and is disinfected. Then, rainwater or sewage enters into a flocculation tank and is subjected to flocculation treatment, and then the rainwater or the sewage enters into a sedimentation tank and is subjected to sedimentation treatment. And then, the upper layer clear water in the sedimentation tank enters the filter and is subjected to final filtration treatment, and then the clear water in the filter is discharged and is used for irrigation or other domestic water, so that the cyclic utilization of rainwater or sewage is realized.

According to the related technology, when rainwater or sewage in the water collecting tank is transported to the disinfection tank, the rainwater or the sewage is easy to go bad, so that the content of bacteria in the rainwater or the sewage is increased, and further, the subsequent disinfection operation is inconvenient and needs to be improved.

Disclosure of Invention

In order to facilitate the disinfection operation of disinfection pond to rainwater or sewage, the application provides a drainage structures water circulating system is oozed in sponge city.

The application provides a pair of sponge city oozes drainage structures water circulating system adopts following technical scheme:

the utility model provides a drainage structures water circulating system is oozed in sponge city, is including header tank, disinfection pond, flocculation basin, sedimentation tank and the filter that connects gradually, the header tank includes top open-ended collecting box and inside hollow reaction box, the collecting box with the reaction box passes through the drain pipe intercommunication, the reaction box with the disinfection pond passes through the delivery pipe intercommunication, the upper end of reaction box is fixed with the medicament case, the roof of reaction box is vertical to be fixed with the stay tube, the stay tube with the medicament case is through arranging the pencil intercommunication, be provided with in the reaction box and to control the control mechanism that the row's of medicine end of arranging the pencil was opened.

Through adopting above-mentioned technical scheme, after sewage got into to collect the incasement, sewage entered into the reaction box through the drain pipe in, at this moment, the end of arranging the powder of controlling mechanism control discharge pipe was opened. Then, the disinfectant in the reagent box enters the supporting tube through the medicine discharging tube and then enters the reaction box through the supporting tube. Immediately afterwards, the disinfectant in the reaction box can disinfect the sewage to realize the pre-disinfection operation of the sewage. Subsequently, the pre-sterilized sewage enters the sterilizing tank through the discharge pipe, and then the sterilizing tank performs a sterilizing operation on the sewage again. The disinfection operation in advance in the sewage transportation can be realized to this design, can reduce the risk that the interior bacterium of sewage increases, can make things convenient for the disinfection operation of disinfection pond to sewage again, work efficiency when can also improving carrying out recovery processing to sewage.

Optionally, the discharge tube is provided with a plurality of, and is a plurality of the end of arranging the powder of discharge tube is followed the direction of height evenly distributed of stay tube, control mechanism can control a plurality of the end of arranging the powder of discharge tube opens in proper order.

Through adopting above-mentioned technical scheme, when the sewage volume that the drain pipe was discharged into the reaction box was less, the end of arranging the powder of the row of controlling mechanism control topmost medicine pipe was opened, then a small amount of antiseptic enters into the reaction box. When the amount of sewage discharged into the reaction box by the water discharge pipe is large, a user can control the plurality of medicine discharge pipes to be opened simultaneously through the control mechanism, and then more disinfectant enters the reaction box. By controlling the input amount of the disinfectant, when the amount of sewage is small, the design can reduce the risk of waste of the disinfectant, thereby improving the resource utilization efficiency. Simultaneously, when the sewage volume is more, this design can improve the disinfection effect in advance to sewage, further makes things convenient for the disinfection operation of disinfection pond to sewage to work efficiency when further improving the recovery processing to sewage.

Optionally, the control mechanism includes that vertical slip wears to locate control tube, vertical sliding connection in the explosive discharge pipe control panel of reaction box inner wall and set up in reset spring in the reaction box, the outer wall of control tube can seal a plurality of the explosive discharge end of explosive discharge pipe, the control panel with the control tube passes through the support frame and connects, the drain pipe is provided with a plurality of, and is a plurality of the drain pipe is followed the direction of height evenly distributed of collecting box, the control panel is located the below of drain pipe, just drain pipe exhaust sewage can strike the control panel, reset spring is used for the drive the control panel upward movement.

Through adopting above-mentioned technical scheme, when the sewage that gets into in the collection box is less, the sewage in the collection box enters into the reaction box through the drain pipe of below, then drain pipe exhaust sewage impact control board to make the control board downstream. At the moment, the control panel drives the control tube to move downwards, and then the medicine discharging end of the medicine discharging tube positioned at the uppermost position of the supporting tube is opened, so that a small amount of disinfectant enters the reaction box through the supporting tube. When the sewage in the collecting box is drained, the control panel drives the control tube to move upwards and reset under the elastic force action of the reset spring. When the sewage that gets into in the collection box is more, the sewage in the collection box enters into the reaction box simultaneously through a plurality of drain pipes in, then the control panel is strikeed simultaneously to a plurality of drain pipe exhaust sewage. At the moment, the distance that the control panel drives the control pipe to move downwards is increased, so that the medicine discharging ends of the medicine discharging pipes positioned above the supporting pipe are opened simultaneously, and more disinfectant enters the reaction box through the supporting pipe. Through setting up simple structure, simple operation, the stable control mechanism of drive effect, realize the quick control that the end of arranging the powder of arranging the pencil was opened and close, and then improve work efficiency. Simultaneously, this design benefit to can utilize the sewage volume that gets into in the collection box, control the automation in proper order of a plurality of calandria ports and open, can improve the linkage nature between each part, can improve the input timeliness of sanitizer again, can also improve the utilization efficiency of resources.

Optionally, a reaction tank is arranged at the upper end of the control panel, the lower end of the control tube extends to the bottom of the reaction tank, a water seepage hole communicated with the reaction tank is arranged at the lower end of the control panel, an installation shaft is horizontally and rotatably connected in the reaction tank, a plurality of stirring wheels are fixed on the installation shaft, and a driving mechanism capable of driving the installation shaft to rotate is arranged in the reaction box.

Through adopting above-mentioned technical scheme, after the sewage discharge in the drain pipe, sewage can enter into the reaction tank, then the disinfectant enters into the reaction tank through the control tube. At this moment, drive the installation axle through actuating mechanism and drive a plurality of stirring wheels and rotate, then a plurality of stirring wheels can mix the stirring to sewage and disinfectant in the reaction tank. This design can improve the mixed degree of consistency of sewage and disinfectant to improve the effect of disinfecting in advance to sewage, and then improve the work efficiency when handling sewage.

Because the disinfectant can enter the bottom of the reaction tank, the disinfectant can be quickly and fully contacted with the sewage in the reaction tank, and the pre-disinfection effect on the sewage is further improved. Simultaneously, when the drain pipe constantly discharged sewage, sewage through the drain pipe exhaust can strike the sewage in the reaction tank to make the sewage in the reaction tank can produce the motion. The design can promote the relative movement effect of the sewage and the disinfectant in the reaction tank, thereby further improving the pre-disinfection effect of the sewage.

If the reaction tank is filled with sewage, the sewage discharged from the drain pipe is difficult to enter the reaction tank. When the stirring wheel rotated, the stirring wheel can be raised partial disinfectant and sewage in the reaction tank to make partial sewage and disinfectant flow out from the reaction tank, and meanwhile, partial disinfectant and sewage can also be oozed out through the weep hole. At this time, the sewage discharged by the drain pipe can enter the reaction tank, so that the disinfectant in the reaction tank can disinfect the sewage which just enters the reaction tank. This design can reduce the risk that sewage is difficult to discharge into the reaction tank to make sewage can contact with disinfectant as far as possible, and then improve the effect of disinfecting in advance to sewage.

Optionally, an end of the installation shaft extends to the outside of the control panel, the driving mechanism includes a fixed sleeve and is located the installation shaft is located the driving gear of the outside one end of the control panel and is vertically fixed in the driving rack of the inner wall of the reaction box, the driving gear with the driving rack meshes mutually.

By adopting the technical scheme, when the sewage amount in the collecting box changes, the sewage amount discharged by the drain pipe also changes. At the moment, the control panel drives the driving rack to vertically reciprocate under the impact of sewage and the elastic force action of the return spring. Meanwhile, the driving rack controls the driving gear to drive the mounting shaft to rotate in a reciprocating mode, and then the mounting shaft drives the stirring wheels to rotate in a reciprocating mode. Through setting up simple structure, simple operation, the stable actuating mechanism of drive effect, realize the rotation fast of installation axle and stirring wheel to the improvement is to the mixed stirring effect of sewage and disinfectant, and then improves the disinfection effect in advance to sewage. Simultaneously, this design makes the in-process of the vertical motion of control panel, and the installation axle can rotate automatically, can save the driving source of installation axle, can improve the linkage effect between each part again, can also improve the utilization efficiency of resources. Because the stirring wheel can rotate in a reciprocating manner, the motion rule of sewage and disinfectant in the reaction tank is broken, the relative motion effect of the sewage and the disinfectant is effectively promoted, and the pre-disinfection effect on the sewage is further improved.

Optionally, the bottom wall level and the parallel rotation of reaction box are connected with a plurality of back shafts, every all be fixed with a plurality of fan wheel on the back shaft, be provided with in the reaction box and drive a plurality of back shaft pivoted management and control mechanisms.

Through adopting above-mentioned technical scheme, when disinfectant and sewage entered into the reaction box bottom portion, drive a plurality of back shafts through management and control mechanism and drive a plurality of corresponding fan impeller and rotate, then a plurality of fan impeller can mix the stirring to disinfectant and sewage, further improve the disinfection effect in advance to sewage. Meanwhile, the fan impeller can provide horizontal acting force for sewage and disinfectant in the rotating process, so that the movement effect of the sewage and the disinfectant along the axial direction of the supporting shaft can be promoted, and the movement effect of the sewage and the disinfectant along the circumferential direction of the supporting shaft can be improved. The design can obviously improve the mixing effect of the sewage and the disinfectant, and further improve the working efficiency when the sewage is recycled.

Optionally, the control mechanism includes a transmission gear fixedly sleeved on each support shaft and a transmission rack vertically fixed at the lower end of the control plate, one of the transmission gears is engaged with the transmission rack, and two adjacent transmission gears are engaged with each other.

By adopting the technical scheme, when the control panel drives the transmission rack to vertically reciprocate, the transmission rack drives the transmission gears meshed with the transmission rack to rotate, and then the transmission gears synchronously rotate. Then, the transmission gears can drive the corresponding support shafts to drive the corresponding fan impellers to rotate. Through setting up the management and control mechanism that the structure is succinct, the operation is convenient, the drive effect is stable, realize the quick synchronous rotation of a plurality of back shafts and flabellum wheel to improve the mixed stirring effect to reaction tank bottom sewage and disinfectant, and then improve the disinfection effect in advance to sewage. Simultaneously, this design makes the in-process of control panel vertical motion, and a plurality of back shafts can the automatic synchronization rotate, can save the driving source of back shaft, can improve the linkage effect between each part again, can also improve the utilization efficiency of resources. The fan impeller can rotate in a reciprocating mode, so that the motion rule of sewage and disinfectant at the bottom of the reaction box is broken, the relative motion effect of the sewage and the disinfectant is effectively promoted, and the pre-disinfection effect of the sewage is further improved. Meanwhile, the rotation directions of the two adjacent support shafts are opposite, so that the rotation directions of the adjacent fan impellers are opposite, the relative movement effect of the sewage and the disinfectant is remarkably promoted, and the pre-disinfection effect of the sewage is further improved.

Optionally, a plurality of pedal-operated inflators are fixed on the bottom wall of the reaction box, the inflators are respectively located below the control panel, each exhaust end of the inflator is connected with a flexible exhaust pipe, and the exhaust pipes are respectively communicated with the reaction tank.

Through adopting above-mentioned technical scheme, when the control panel downstream, the control panel can extrude a plurality of inflators, then the sewage in a plurality of inflators enters into the reaction tank through corresponding blast pipe. When the control panel moves upwards and resets, the inflator pump resets under the action of self elasticity, and sewage at the bottom of the reaction box enters the inflator pump through the air inlet end of the inflator pump. The sewage at the bottom of the reaction box is extracted into the reaction tank by utilizing the inflator pump, so that the contact probability of the sewage and the disinfectant is improved, and the disinfection effect on the sewage is improved. Meanwhile, in the vertical movement process of the control panel, the inflator can deform and reset, and linkage among all the parts is improved. When the exhaust pipe discharges sewage to the reaction tank, the relative movement effect of the sewage and the disinfectant in the reaction tank can be promoted, and the pre-disinfection effect on the sewage is further improved.

Optionally, the upper end of the inflator is fixedly connected with the control panel.

Through adopting above-mentioned technical scheme, move upwards when the control panel to the in-process that a plurality of inflators reset, a plurality of inflators can also provide vertical ascending effort to the control panel, thereby make the control panel can reset fast, and then improve the stability in use.

In summary, the present application includes at least one of the following beneficial technical effects:

the disinfection agent is discharged into the supporting pipe through the medicine discharge pipe and then enters the reaction box, when sewage in the collecting box enters the reaction box, the disinfection agent can firstly disinfect the sewage, and then the sewage enters the disinfection tank through the discharge pipe, so that the design can realize the pre-disinfection operation of the sewage, reduce the risk of bacteria in the sewage, and facilitate the disinfection operation of the disinfection tank on the sewage;

the sewage and the disinfectant in the reaction tank are mixed and stirred by the stirring wheels, so that the mixing uniformity of the sewage and the disinfectant is improved, the pre-disinfection effect on the sewage is improved, and the working efficiency of sewage treatment is improved;

the sewage at the bottom of the reaction box is extracted into the reaction tank by utilizing the inflator pump, so that the contact probability of the sewage and the disinfectant is improved, and the disinfection effect on the sewage is improved.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is a schematic structural view of a water collecting tank in the embodiment of the present application.

FIG. 3 is a schematic view showing the internal structure of a reaction tank in the example of the present application.

Fig. 4 is an enlarged schematic view of the region a in fig. 3.

FIG. 5 is a partial sectional view of a reaction chamber in the example of the present application.

Description of reference numerals: 1. a drain pipe; 2. a discharge pipe; 3. supporting a tube; 4. a water collection tank; 41. a collection box; 42. a reaction box; 5. a disinfection tank; 6. a flocculation tank; 7. a sedimentation tank; 8. a filter; 9. a kit; 10. a medicine discharge pipe; 11. a control mechanism; 111. a control tube; 112. a control panel; 113. a return spring; 12. a support frame; 13. a reaction tank; 14. a water seepage hole; 15. installing a shaft; 16. a stirring wheel; 17. a drive mechanism; 171. a drive gear; 172. a drive rack; 18. an inflator; 19. an exhaust pipe; 20. a support shaft; 21. a fan wheel; 22. a management and control mechanism; 221. a drive rack; 222. a transmission gear.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses drainage structures water circulating system is oozed in sponge city. Referring to fig. 1, the sponge city seepage drainage structure water circulation system comprises a water collecting tank 4, a disinfection tank 5, a flocculation tank 6, a sedimentation tank 7 and a filter 8 which are connected in sequence, wherein the water collecting tank 4 is used for collecting sewage, and the disinfection tank 5 is used for disinfecting the sewage. The flocculation tank 6 is used for flocculating sewage, the sedimentation tank 7 is used for settling sewage, and meanwhile, the filter 8 is used for finally filtering the upper clear water of the sedimentation tank 7 so as to realize the recovery treatment of the sewage.

Referring to fig. 1 and 2, the water collecting tank 4 includes a collecting tank 41 having an upper opening, a reaction tank 42 is fixedly connected to an outer wall of the collecting tank 41, the collecting tank 41 and the reaction tank 42 are communicated with each other by a plurality of drain pipes 1, and the plurality of drain pipes 1 are uniformly distributed along a height direction of the collecting tank 41. When the amount of sewage entering the collection tank 41 is small, the sewage enters the reaction tank 42 through the drain pipe 1 below the collection tank 41, and when the amount of sewage entering the collection tank 41 is large, the sewage enters the reaction tank 42 through the plurality of drain pipes 1 at the same time.

Referring to fig. 1 and 2, the reaction tank 42 communicates with the sterilizing compartment 5 through the discharge pipe 2 so that the sewage in the reaction tank 42 can be introduced into the sterilizing compartment 5 through the discharge pipe 2. Meanwhile, the upper end of the reaction box 42 is fixedly connected with the chemical box 9, and the lower end of the chemical box 9 is communicated with a plurality of drug discharge pipes 10, so that the disinfectant in the chemical box 9 can be discharged through the drug discharge pipes 10.

Referring to fig. 2 and 3, a supporting tube 3 is vertically and fixedly connected to a top wall of the reaction box 42, a plurality of drug discharge tubes 10 respectively penetrate through the interior of the reaction box 42, and drug discharge ends of the plurality of drug discharge tubes 10 are respectively communicated with the supporting tube 3, so that the disinfectant in the drug discharge tubes 10 can enter the supporting tube 3. Meanwhile, a control mechanism 11 is arranged in the reaction box 42, and the control mechanism 11 can control the medicine discharging ends of the medicine discharging pipes 10 to be sequentially opened from top to bottom.

When the amount of sewage discharged into the reaction tank 42 from the drainage pipe 1 is small, the control mechanism 11 controls the discharge end of the discharge pipe 10 located at the uppermost position of the support pipe 3 to be opened, and then the disinfectant in the chemical tank 9 enters the support pipe 3 through the uppermost discharge pipe 10, so that a small amount of disinfectant enters the reaction tank 42.

When the amount of sewage discharged into the reaction tank 42 by the drainage pipe 1 is large, the over-control mechanism 11 controls the discharge ends of the plurality of discharge pipes 10 to be opened simultaneously, and then the disinfectant in the chemical tank 9 enters the support pipe 3 through the plurality of discharge pipes 10 simultaneously, so that more disinfectant enters the reaction tank 42.

Subsequently, the disinfectant in the reaction tank 42 can disinfect the sewage to achieve pre-disinfection of the sewage. This design can reduce the risk that the interior bacterium of sewage increases, can make things convenient for the disinfection operation of disinfection pond 5 to sewage again, can also improve the work efficiency when carrying out recovery processing to sewage.

Referring to fig. 2 and 4, the control mechanism 11 includes a control tube 111 vertically slidably disposed in the discharge tube 10, and the control tube 111 can close the discharge ports of the discharge tubes 10. The control plate 112 is vertically slidably connected to the inner wall of the reaction chamber 42, and the control tube 111 is connected to the control plate 112 through the support frame 12, so that the control plate 112 can drive the control tube 111 to move vertically. Meanwhile, the control panel 112 is located below the drain pipe 1, and when the drain pipe 1 discharges sewage, the sewage can impact the control panel 112 and make the control panel 112 drive the control pipe 111 to move downward.

Referring to fig. 2, the bottom of the reaction box 42 is provided with a plurality of return springs 113, one end of each return spring 113 is fixedly connected with the bottom wall of the reaction box 42, and the other end is fixedly connected with the control plate 112. Meanwhile, the return spring 113 can drive the control plate 112 to move upward, thereby providing a stable driving force for the return of the control plate 112 and the control tube 111.

When the amount of sewage introduced into the collection tank 41 is small, the sewage in the collection tank 41 is introduced into the reaction tank 42 through the lowermost drain pipe 1, and then the sewage discharged from the drain pipe 1 strikes the control panel 112 and causes the control panel 112 to move downward. At this time, the control plate 112 moves the control tube 111 downward, and then the discharge end of the discharge tube 10 located at the uppermost position of the support tube 3 is opened, so that a small amount of the disinfectant is introduced into the reaction tank 42 through the support tube 3.

When the sewage entered into the collection tank 41 is large, the sewage in the collection tank 41 simultaneously enters the reaction tank 42 through the plurality of drain pipes 1, and then the sewage discharged from the plurality of drain pipes 1 simultaneously strikes the control panel 112. At this time, the control board 112 drives the control pipe 111 to move downward for an increased distance, so that the discharge ends of the plurality of discharge pipes 10 located above the support pipe 3 are simultaneously opened, and more disinfectant enters the reaction box 42 through the support pipe 3.

When the amount of sewage in the collecting tank 41 changes, the amount of sewage discharged from the drain pipe 1 also changes. At this time, the control plate 112 vertically reciprocates under the impact of the sewage and the elastic force of the return spring 113. When the sewage in the collecting tank 41 is completely discharged, the control panel 112 drives the control tube 111 to reset under the elastic force of the return spring 113, and then the control tube 111 closes the medicine discharging ends of the medicine discharging tubes 10.

Referring to fig. 2 and 4, the reaction tank 13 is opened on the upper end surface of the control plate 112, and the sewage discharged from the plurality of water discharge pipes 1 can enter the reaction tank 13. Meanwhile, the lower end portion of the control pipe 111 extends to the bottom of the reaction tank 13 so that the sterilizing agent can enter the bottom of the reaction tank 13. The lower end surface of the control plate 112 is vertically opened with a water seepage hole 14 communicated with the reaction tank 13, so that the sewage in the reaction tank 13 can seep out through the water seepage hole 14.

Referring to fig. 2 and 4, the inner wall of the reaction tank 13 is horizontally and rotatably connected with a mounting shaft 15, a plurality of stirring wheels 16 are fixed on the mounting shaft 15, and the plurality of stirring wheels 16 are uniformly distributed along the axial direction of the mounting shaft 15. Meanwhile, a driving mechanism 17 capable of driving the mounting shaft 15 to drive the plurality of stirring wheels 16 to rotate is arranged in the reaction box 42, so that the sewage and the disinfectant in the reaction tank 13 are mixed and stirred, and the effect of pre-disinfecting the sewage is improved.

Referring to fig. 2 and 4, the driving mechanism 17 includes a driving rack 172 vertically fixedly coupled to the inner wall of the reaction chamber 42, an end portion of the mounting shaft 15 extends to the outside of the control plate 112, and an end of the mounting shaft 15 located outside the control plate 112 is fixedly sleeved with a driving gear 171, and the driving gear 171 is engaged with the driving rack 172.

When the control plate 112 vertically reciprocates by the impact of the sewage and the elastic force of the return spring 113, the driving rack 172 vertically reciprocates following the control plate 112. At this time, the driving rack 172 controls the driving gear 171 to drive the mounting shaft 15 to rotate back and forth, and then the mounting shaft 15 can drive the stirring wheels 16 to rotate back and forth.

Referring to fig. 2 and 4, the bottom wall of the reaction chamber 42 is provided with a plurality of foot-operated inflators 18, and the inflators 18 are respectively located below the control panel 112. The lower end of the inflator 18 is fixedly connected to the bottom wall of the reaction chamber 42, and the upper end of the inflator 18 is fixedly connected to the control panel 112, so that the control panel 112 can press the plurality of inflators 18 when the control panel 112 moves downward. Meanwhile, the exhaust end of each inflator 18 is connected with a flexible exhaust pipe 19, and the exhaust pipes 19 respectively penetrate through the control panel 112 and are respectively communicated with the reaction tank 13.

When the control plate 112 moves downward, the control plate 112 can press the plurality of aeration cylinders 18, and then the sewage in the plurality of aeration cylinders 18 enters the reaction tank 13 through the corresponding exhaust pipes 19. When the control panel 112 moves upward and resets, the inflator 18 resets by its own elasticity, and then the sewage at the bottom of the reaction chamber 42 enters the inflator 18 through the inlet end of the inflator 18. Reciprocating like this, the realization is to the automatic extraction of reaction box 42 bottom sewage to improve the contact probability of sewage and disinfectant, thereby improve to sewage with the disinfection effect.

Referring to fig. 5, a plurality of support shafts 20 are horizontally and rotatably connected to the bottom wall of the reaction box 42, and the plurality of support shafts 20 are parallel to each other. Meanwhile, each support shaft 20 is fixedly sleeved with a plurality of fan blades 21, and a control mechanism 22 capable of driving the support shafts 20 to drive the corresponding fan blades 21 to rotate is arranged in the reaction box 42, so that the fan blades 21 can mix and stir the sewage and the disinfectant at the bottom of the reaction box 42.

Referring to fig. 5, the regulating mechanism 22 includes a driving rack 221 vertically and fixedly connected to the lower end of the control plate 112, a plurality of supporting shafts 20 are respectively fixedly sleeved with a driving gear 222, and two adjacent driving gears 222 are engaged with each other. Meanwhile, one of the transmission gears 222 is meshed with the transmission rack 221, so that when the control panel 112 drives the transmission rack 221 to vertically reciprocate, the transmission rack 221 drives the transmission gear 222 meshed therewith to rotate, and then the transmission gears 222 can drive the corresponding support shafts 20 to synchronously rotate.

The implementation principle of the sponge city seepage drainage structure water circulation system is as follows: when sewage is required to be treated, the sewage enters the collection tank 41 and then enters the reaction tank 42 through the drain pipe 1. Then, the disinfectant in the chemical tank 9 enters the support tube 3 through the drug discharge tube 10 and then enters the reaction tank 42 through the control tube 111, and at this time, the disinfectant performs a pre-sterilization operation on the sewage in the reaction tank 42. Subsequently, the sewage subjected to the preliminary sterilization operation enters the sterilization tank 5 through the discharge pipe 2, and then the sterilization tank 5 performs the sterilization operation again on the sewage. Next, sewage in the disinfection tank 5 is discharged into the flocculation tank 6, then the flocculation tank 6 performs flocculation operation on the sewage, and then, sewage in the flocculation tank 6 is discharged into the sedimentation tank 7 and is subjected to sedimentation operation. Then, the upper layer clean water in the sedimentation tank 7 enters the filter 8, and then the filter 8 carries out final filtration on the clean water, thereby realizing the recovery treatment on the sewage.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a drainage structures water circulating system is oozed in sponge city, includes header tank (4), disinfection pond (5), flocculation basin (6), sedimentation tank (7) and filter (8) that connect gradually, its characterized in that: the water collecting tank (4) comprises a collecting tank (41) with an opening at the upper part and a reaction tank (42) with a hollow inner part, the collecting tank (41) is communicated with the reaction tank (42) through a drain pipe (1), the reaction tank (42) is communicated with the disinfection pool (5) through a drain pipe (2), a medicament tank (9) is fixed at the upper end of the reaction tank (42), a supporting pipe (3) is vertically fixed on the top wall of the reaction tank (42), the supporting pipe (3) is communicated with the medicament tank (9) through a medicament discharge pipe (10), and a control mechanism (11) capable of controlling the opening of the medicament discharge end of the medicament discharge pipe (10) is arranged in the reaction tank (42).

2. The water circulation system of the sponge city seepage and drainage structure, according to claim 1, is characterized in that: arrange pencil (10) and be provided with a plurality of, it is a plurality of arrange the medicine end of arranging pencil (10) is followed the direction of height evenly distributed of stay tube (3), control mechanism (11) can control a plurality of arrange the medicine end of arranging pencil (10) and open in proper order.

3. The sponge city seepage drainage structure water circulation system of claim 2, which is characterized in that: the control mechanism (11) comprises a control tube (111) vertically and slidably arranged in the drug discharge tube (10), a control plate (112) vertically and slidably connected with the inner wall of the reaction box (42) and a return spring (113) arranged in the reaction box (42), the outer wall of the control tube (111) can seal the medicine discharging ends of the medicine discharging tubes (10), the control panel (112) is connected with the control tube (111) through a support frame (12), the number of the drainage pipes (1) is a plurality, the drainage pipes (1) are uniformly distributed along the height direction of the collecting box (41), the control panel (112) is positioned below the drainage pipes (1), and the sewage discharged from the drain pipe (1) can impact the control panel (112), the return spring (113) is used for driving the control plate (112) to move upwards.

4. The sponge city seepage drainage structure water circulation system of claim 3, which is characterized in that: reaction tank (13) have been seted up to the upper end of control panel (112), the lower tip of control tube (111) extends to the bottom of reaction tank (13), the lower extreme of control panel (112) seted up with infiltration hole (14) that reaction tank (13) are linked together, horizontal rotation is connected with installation axle (15) in reaction tank (13), be fixed with a plurality of stirring wheels (16) on installation axle (15), be provided with in reaction box (42) and drive installation axle (15) pivoted actuating mechanism (17).

5. The sponge city seepage drainage structure water circulation system of claim 4, which is characterized in that: one end of the installation shaft (15) extends to the outside of the control panel (112), the driving mechanism (17) is arranged on the outer end of the control panel (112) in a fixed manner, the installation shaft (15) is arranged on the driving gear (171) at the outer end of the control panel (112) and is vertically fixed on the driving rack (172) on the inner wall of the reaction box (42), and the driving gear (171) is meshed with the driving rack (172).

6. The sponge city seepage drainage structure water circulation system of claim 3, which is characterized in that: the horizontal and parallel rotation of diapire of reaction box (42) is connected with a plurality of back shafts (20), every all be fixed with a plurality of fan wheel (21) on back shaft (20), be provided with in reaction box (42) and drive a plurality of back shafts (20) pivoted management and control mechanism (22).

7. The water circulation system of the sponge city seepage and drainage structure, according to claim 6, is characterized in that: the control mechanism (22) comprises a transmission gear (222) fixedly sleeved on each support shaft (20) and a transmission rack (221) vertically fixed at the lower end of the control plate (112), wherein one transmission gear (222) is meshed with the transmission rack (221), and two adjacent transmission gears (222) are meshed.

8. The sponge city seepage drainage structure water circulation system of claim 3, which is characterized in that: the bottom wall of the reaction box (42) is fixed with a plurality of pedal type inflators (18), the inflators (18) are respectively located below the control panel (112), each exhaust end of the inflators (18) is connected with a flexible exhaust pipe (19), and the exhaust pipes (19) are respectively communicated with the reaction tank (13).

9. The water circulation system of the sponge city seepage and drainage structure, according to claim 8, is characterized in that: the upper end part of the inflator (18) is fixedly connected with the control panel (112).

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