CN112957808A

CN112957808A - Sponge urban road rainwater integration cyclic treatment system

Info

Publication number: CN112957808A
Application number: CN202110197531.4A
Authority: CN
Inventors: 刘元波; 匡珊珊; 亓艳丽
Original assignee: Qingdao West Coast Municipal Engineering Co ltd
Current assignee: Qingdao West Coast Municipal Engineering Co ltd
Priority date: 2021-02-22
Filing date: 2021-02-22
Publication date: 2021-06-15

Abstract

The invention discloses a sponge urban road rainwater integrated circulation treatment system, and relates to the technical field of municipal drainage equipment. According to the rainwater filtering device, the filtering assembly in the filtering cavity filters rainwater, the conveying frame can carry and convey sundries to the conveying cavity, the conveying frame can convey the sundries into the collecting cavity, the collecting cavity collects the sundries, self-cleaning treatment of the filtering assembly can be achieved by utilizing the gravity and the impact force of the rainwater, the filtered sundries can be conveyed, collected and gathered, the collecting cavity is cleaned regularly, the rainwater circulation treatment effect can be effectively guaranteed, the sundries in the first half supporting sleeve can be vibrated, filtering holes are prevented from being blocked by the sundries, the filtering treatment effect is guaranteed, the sundries can be effectively conveyed into the collecting cavity, and the sundries collecting effect is better.

Description

Sponge urban road rainwater integration cyclic treatment system

Technical Field

The invention relates to the technical field of municipal drainage equipment, in particular to a sponge urban road rainwater integrated circulating treatment system.

Background

The sponge city is a new generation of city rainfall flood management concept, and refers to a city which can be like a sponge and has good elasticity in the aspects of adapting to environmental changes, coping with natural disasters caused by rainwater and the like, and the city can also be called as a water elasticity city. The sponge city material is substantially applied, has the characteristics of excellent water seepage, compression resistance, wear resistance, skid resistance, environmental protection, attractive and colorful appearance, comfort, easy maintenance, sound absorption, noise reduction and the like, becomes a breathable town landscape pavement, effectively relieves the urban heat island effect, and ensures that the urban pavement does not generate heat any more. Sponge city construction should follow ecological priority principle etc. combines together natural way and artificial measures, under the prerequisite of guaranteeing urban drainage waterlogging prevention safety, furthest realizes that rainwater stores up, permeates and purifies in the urban area, promotes the utilization of rainwater resource and ecological environment protection. The construction of the sponge city is not a way of putting the weight down and replacing the traditional drainage system, but a way of reducing burden and supplementing the traditional drainage system, and the self effect of the city is exerted to the greatest extent. In the sponge city construction process, the systematicness of natural rainfall, surface water and underground water is planned, water recycling links such as water supply and drainage are coordinated, and the complexity and the long-term property of the links are considered.

The rainwater of the existing sponge urban road is integrally and circularly treated, a large amount of sundries can be accumulated after the filtering component is used for a period of time, the rainwater filtering effect is poor, and the subsequent rainwater treatment is inconvenient.

Disclosure of Invention

The invention aims to provide a sponge urban road rainwater integrated circulating treatment system to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a sponge urban road rainwater integration circulation processing system, includes rainwater filter stand and cistern, the rainwater filter stand is located cistern top center, rainwater filter stand inside center is equipped with the filter chamber, the rainwater filter stand inside in filter chamber outside symmetry is equipped with collects the chamber, the rainwater filter stand inside in collect chamber outside symmetry and be equipped with the transport chamber, collect the chamber with the transport chamber link up, the rainwater filter stand inside in two the level is equipped with the conveying frame between the transport chamber, conveying frame one end extends to inside the transport chamber, the conveying frame other end extends to the filter chamber below.

Further, the rainwater filter frame inner wall is provided with an installation cavity between the filter cavity and the collecting cavity, the two sides inside the installation cavity are vertically and symmetrically provided with filter components, each filter component comprises a first supporting roller and a second supporting roller, the first supporting rollers and the second supporting rollers are rotatably connected with the inner wall of the installation cavity, the outer walls of the first supporting rollers and the second supporting rollers are sleeved with the same first flexible belt, the outer wall of the first flexible belt is provided with a plurality of first half supporting sleeves, the bottom of each first half supporting sleeve is provided with a plurality of filter holes, each first flexible belt extends into the filter cavity, the openings of the first half supporting sleeves inside the filter cavity face upwards, the openings of the first half supporting sleeves inside the installation cavity face downwards, and the conveying frame comprises a third supporting roller and a fourth supporting roller, the third supporting roll and the fourth supporting roll are respectively rotatably connected with the inner wall of the rainwater filter frame, the outer wall of the third supporting roll and the outer wall of the fourth supporting roll are sleeved with the same second flexible belt, the outer wall of the second flexible belt is provided with a cavity, the inner wall of the cavity is provided with a plurality of second half supporting sleeves, the opening of the second half supporting sleeve positioned above the filter cavity faces the opening of the filter cavity, the opening of the second half supporting sleeve positioned below the filter cavity faces the conveying cavity, the first half supporting sleeves and the second half supporting sleeves are arranged in a staggered mode, two adjacent first half supporting sleeves are arranged in a staggered mode, a conveying frame is vertically arranged inside the conveying cavity and comprises a fifth supporting roll and a sixth supporting roll, the fifth supporting roll and the sixth supporting roll are equally divided into a group and are respectively rotatably connected with the inner wall of the conveying cavity, and the outer wall of the fifth supporting roll and the sixth supporting roll are sleeved with the, the outer wall of the third flexible belt is provided with a plurality of first hemispherical shells, the first hemispherical shells are close to one side of the collecting cavity, the openings of the first hemispherical shells incline downwards, the openings of the first hemispherical shells are far away from one side of the collecting cavity, the openings of the first hemispherical shells incline upwards, and the first hemispherical shells and the second hemispherical sleeves are arranged in a staggered mode.

Furthermore, the top of the outer wall of the rainwater filtering frame is provided with a movably connected sealing plug above the collecting cavity, the sealing plug can be used for sealing the collecting cavity, and meanwhile, the sealing plug is pulled out, so that sundries in the collecting cavity can be cleaned.

Further, the rainwater filter frame in filter chamber inner wall top symmetry is equipped with the arc strip, and the arc strip can be to getting into the inside rainwater of filter chamber and guide the processing, avoids the rainwater to carry out the installation intracavity portion, and the arc strip can be to the installation intracavity portion to the first half support sleeve of filter chamber motion guide the processing simultaneously, guarantees first half support sleeve's security and stability.

Furthermore, the conveyer frame is equipped with the seventh backing roll in the rotation between the fifth backing roll and the sixth backing roll, the seventh backing roll is located the third flexible area inboard, and the seventh backing roll can carry out the auxiliary stay at fifth backing roll and sixth backing roll, strengthens the stability of third flexible area.

Furthermore, the outer diameter of the cross section of the first half supporting sleeve is larger than one half of the inner diameter of the filter cavity, and the outer diameter of the cross section of the first half supporting sleeve is smaller than two thirds of the inner diameter of the filter cavity, so that the coverage area of the two sets of first half supporting sleeves to the filter cavity is wider, and the filtering effect is better.

Further, collect the chamber top with carry and be equipped with a plurality of between the chamber and lead to the groove, it is equipped with the first support shaft that rotates the connection to lead to groove inner wall bottom, first support shaft outer wall cover is equipped with first torsional spring, first support shaft outer wall is close to one side is equipped with first bracing piece, first bracing piece is kept away from first support shaft one end be equipped with first hemisphere shell assorted second hemisphere shell, the second hemisphere shell is located when carrying the intracavity portion second hemisphere shell opening up, installation intracavity wall is equipped with the second back shaft that rotates the connection, second back shaft outer wall cover is equipped with the second torsional spring, second back shaft outer wall one side is equipped with the second bracing piece, the second bracing piece extends to inside the installation cavity, second bracing piece bottom is equipped with a plurality of elastic component.

Furthermore, the height of the through groove is greater than the sum of the outer diameter of the first support shaft, the length of the first support rod and the outer diameter of the second hemispherical shell, so that the second hemispherical shell can penetrate through the through groove.

Further, rainwater filter frame inner wall be equipped with second back shaft assorted mounting groove, the mounting groove with the installation cavity link up, the mounting groove provides installation space for the second back shaft.

Furthermore, the elastic part comprises a spring, one end of the spring, which is far away from the second support rod, is provided with a support ball, the spring elastically supports the support ball, and the support ball can slide in contact with the outer wall of the first half-support sleeve.

Compared with the prior art, the invention has the following beneficial effects:

1. the invention is provided with a rainwater filter frame, a reservoir, a filter chamber, a collection chamber, a conveying frame, a filter assembly and a conveying frame, rainwater impacts a first half supporting sleeve of the filter assembly, impurities in the rainwater are filtered and stored in the first half supporting sleeve, the gravity and impact force of the rainwater act on the first half supporting sleeve, the first half supporting sleeve performs rotary motion when moving to the lowest part of the filter assembly, the rotary motion of the first half supporting sleeve is contacted and propped against a second half supporting sleeve, a second flexible belt can be driven to perform rotary motion along with the continuous motion of the first half supporting sleeve, the second flexible belt transmits sundries in a cavity to the inner part of the conveying chamber, when the second half supporting sleeve moves to a rotary position, the second half supporting sleeve dials down a first half spherical shell of the conveying frame along with the continuous motion of the second half supporting sleeve, sustainable first hemisphere shell is dialled downwards, first hemisphere shell drives the third flexible band and carries out rotary motion, first hemisphere shell can push down the debris of carrying the intracavity portion, then upwards carry, first hemisphere shell carries out rotary motion when moving the carriage topmost, first hemisphere shell opening is down, the inside debris of first hemisphere shell is to the whereabouts, debris are when falling, the spherical structure in first hemisphere shell top that is located the below can carry out spacingly to debris, with debris to the inside guide of collection intracavity, debris are collecting at the collection intracavity portion, the automatically cleaning to the filtering component is realized to the gravity and the impact force of usable rainwater, and can carry to filter debris and collect and summarize, regularly to collecting the chamber clear up can, can effectively guarantee rainwater circulation treatment effect.

2. The invention is characterized in that the invention is provided with a through groove, a first supporting shaft, a first torsion spring, a first supporting rod, a second hemispherical shell, a second supporting shaft, a second torsion spring, a second supporting rod and an elastic part, when the first hemispherical sleeve moves upwards in the installation cavity, the first hemispherical sleeve pushes the second supporting rod upwards, the second torsion spring drives the second supporting rod to vibrate, the second supporting rod vibrates the first hemispherical sleeve to vibrate the sundries in the first hemispherical sleeve, so as to prevent the sundries from blocking the filter holes and ensure the filtering treatment effect, the second hemispherical shell is positioned below the first hemispherical shell, the sundries in the inner side of the first hemispherical shell fall into the first hemispherical shell, when the first hemispherical shell moves downwards, the first hemispherical shell pulls the second hemispherical shell outwards, the second hemispherical shell passes through the through groove to move into the collection cavity, first torsional spring compression, the second hemisphere shell moves and tumbles after collecting intracavity portion, and the inside debris of second hemisphere shell fall into and collect intracavity portion, and first torsional spring kick-backs, passes logical groove removals to transport intracavity portion with the second hemisphere shell, accepts debris once more, can effectively guarantee that debris carry and collect intracavity portion, and debris collection effect is better.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a front view of the present invention in its entirety;

FIG. 2 is a front sectional view of the present invention as a whole;

FIG. 3 is an enlarged schematic view at A of FIG. 2 of the present invention;

FIG. 4 is an enlarged schematic view of the invention at B of FIG. 2;

FIG. 5 is an enlarged schematic view of the invention at C of FIG. 2;

FIG. 6 is a front sectional view of the transfer rack of the present invention;

FIG. 7 is a front sectional view of the carriage of the present invention;

in the figure: 1. a rainwater filter stand; 2. a reservoir; 3. a filter chamber; 4. a collection chamber; 5. a delivery lumen; 6. a transfer frame; 7. a filter assembly; 8. a first support roller; 9. a second support roller; 10. a first flexible band; 11. a first half support sleeve; 12. a filtration pore; 13. a mounting cavity; 14. a third support roller; 15. a fourth support roller; 16. a second flexible band; 17. a cavity; 18. a second half support sleeve; 19. a carriage; 20. a fifth supporting roller; 21. a sixth supporting roller; 22. a third flexible band; 23. a first hemispherical shell; 24. a sealing plug; 25. an arc-shaped strip; 26. a seventh supporting roller; 27. a through groove; 28. a first support shaft; 29. a first torsion spring; 30. a first support bar; 31. a second hemispherical shell; 32. a second support shaft; 33. a second torsion spring; 34. a second support bar; 35. an elastic member; 36. mounting grooves; 37. a spring; 38. and supporting the ball.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1-7, the sponge urban road rainwater integrated circulation treatment system comprises a rainwater filter rack 1 and a reservoir 2, wherein the rainwater filter rack 1 is arranged at the top center of the reservoir 2, a filter chamber 3 is arranged at the center inside the rainwater filter rack 1, a collection chamber 4 is symmetrically arranged inside the rainwater filter rack 1 outside the filter chamber 3, a delivery chamber 5 is symmetrically arranged inside the rainwater filter rack 1 outside the collection chamber 4, the collection chamber 4 is communicated with the delivery chamber 5, a transfer rack 6 is horizontally arranged inside the rainwater filter rack 1 between the two delivery chambers 5, one end of the transfer rack 6 extends into the delivery chamber 5, the other end of the transfer rack 6 extends to the lower part of the filter chamber 3, and an installation chamber 13 is arranged on the inner wall of the rainwater filter rack 1 between the filter chamber 3 and the collection chamber 4, the vertical symmetry in inside both sides of installation cavity 13 is equipped with filtering component 7, filtering component 7 includes first backing roll 8 and second backing roll 9, first backing roll 8 with second backing roll 9 with the installation cavity 13 inner wall rotates and connects, first backing roll 8 with second backing roll 9 outer wall cover is equipped with same first flexible area 10, first flexible area 10 outer wall is equipped with the first half supporting sleeve 11 of a plurality of, first half supporting sleeve 11 bottom is equipped with a plurality of filtration pore 12, first flexible area 10 extends to inside the filter cavity 3, is located inside the filter cavity 3 first half supporting sleeve 11 opening up, is located inside the installation cavity 13 first half supporting sleeve 11 opening down, transfer rack 6 includes third backing roll 14 and fourth backing roll 15, third backing roll 14 with fourth backing roll 15 respectively with rainwater filter rack 1 inner wall rotates and is connected, the third supporting roller 14 and the fourth supporting roller 15 are sleeved with a same second flexible belt 16, the outer wall of the second flexible belt 16 is provided with a cavity 17, the inner wall of the cavity 17 is provided with a plurality of second half supporting sleeves 18, the second half supporting sleeves 18 are positioned above the filtering cavity 3, the second half supporting sleeves 18 are positioned below the filtering cavity 5, the first half supporting sleeves 11 and the second half supporting sleeves 18 are arranged in a staggered mode, adjacent two first half supporting sleeves 11 are arranged in a staggered mode, a conveying frame 19 is vertically arranged inside the conveying cavity 5, the conveying frame 19 comprises a fifth supporting roller 20 and a sixth supporting roller 21, the fifth supporting roller 20 and the sixth supporting roller 21 are equally divided into a group which is respectively connected with the inner wall of the conveying cavity 5 in a rotating mode, the outer wall of the fifth supporting roller 20 and the outer wall of the sixth supporting roller 21 are sleeved with a same third flexible belt 22, the outer wall of the third flexible belt 22 is provided with a plurality of first hemispherical shells 23, the openings of the first hemispherical shells 23 close to one side of the collecting cavity 4 incline downwards, the openings of the first hemispherical shells 23 far away from one side of the collecting cavity 4 incline upwards, and the first hemispherical shells 23 and the second hemispherical support sleeves 18 are arranged in a staggered manner.

The sealing plug 24 is movably connected with the top of the outer wall of the rainwater filtering frame 1 above the collecting cavity 4, the collecting cavity 4 can be sealed by the sealing plug 24, and meanwhile, the sealing plug 24 is pulled out, so that sundries in the collecting cavity 4 can be cleaned.

Rainwater filter frame 1 in 3 inner wall tops of filter chamber symmetry are equipped with arc 25, and arc 25 can guide the processing to the rainwater that gets into 3 insides of filter chamber, avoids the rainwater to carry out installation cavity 13 insidely, and arc 25 can guide the processing to installation cavity 13 inside first half support sleeve 11 to the motion of filter chamber 3 simultaneously, guarantees first half support sleeve 11's security and stability.

The conveying frame 19 is provided with a seventh supporting roller 26 between the fifth supporting roller 20 and the sixth supporting roller 21 in a rotating manner, the seventh supporting roller 26 is arranged on the inner side of the third flexible belt 22, and the seventh supporting roller 26 can perform auxiliary support on the fifth supporting roller 20 and the sixth supporting roller 21 to enhance the stability of the third flexible belt 22.

The outer diameter of the cross section of the first half supporting sleeve 11 is larger than one half of the inner diameter of the filter cavity 3, the outer diameter of the cross section of the first half supporting sleeve 11 is smaller than two thirds of the inner diameter of the filter cavity 3, so that the coverage area of the two sets of first half supporting sleeves 11 to the filter cavity 3 is wider, and the filtering effect is better.

The implementation mode is specifically as follows: when the rainwater filtering device is used, by arranging the rainwater filtering frame 1, the water storage tank 2, the filtering cavity 3, the collecting cavity 4, the conveying cavity 5, the conveying frame 6, the filtering component 7 and the conveying frame 19, road rainwater enters the rainwater filtering frame 1 through the top of the filtering cavity 3, the rainwater impacts the first half supporting sleeve 11 of the filtering component 7, the first half supporting sleeve 11 arranged in the filtering cavity 3 is designed to be opened upwards, the first half supporting sleeve 11 arranged in the mounting cavity 13 is opened downwards, the first half supporting sleeve 11 is used for supporting the rainwater, the rainwater passes through the filtering hole 12 and falls downwards, impurities in the rainwater are filtered and stored in the first half supporting sleeve 11, the gravity and the impact force of the rainwater act on the first half supporting sleeve 11, the first half supporting sleeve 11 transmits the acting force to the first flexible belt 10, and the first half supporting sleeve 11 arranged in the filtering cavity 3 moves downwards under the action of the gravity and the impact force of the rainwater, the first supporting roller 8 and the second supporting roller 9 roll and support the first flexible belt 10, so that the first flexible belt 10 rotates along the first supporting roller 8 and the second supporting roller 9, the first half supporting sleeve 11 positioned in the installation cavity 13 moves upwards along with the first flexible belt 10, rainwater passes through the filter cavity 3 and then falls onto the conveying frame 6, the second half supporting sleeve 18 positioned above opens towards the filter cavity 3, the second half supporting sleeve 18 positioned below opens towards the conveying cavity 5, so that rainwater falling onto the second flexible belt 16 can flow downwards along the second half supporting sleeve 18 and finally enter the reservoir 2, a large amount of rainwater can be prevented from being accumulated in the cavity 17 of the second flexible belt 16, when the rainwater moves downwards along the filter cavity 3, the first half supporting sleeve 11 in the filter cavity 3 moves downwards, and when the first half supporting sleeve 11 moves to the lowest part of the filter assembly 7, the rainwater rotates, at the moment, the opening of the first half supporting sleeve 11 faces downwards, sundries in the first half supporting sleeve 11 fall into the cavity 17 of the second flexible belt 16, the first half supporting sleeve 11 makes a rotary motion to be in contact with and abut against the second half supporting sleeve 18, the second flexible belt 16 can be driven to make a rotary motion along with the continuous motion of the first half supporting sleeve 11, the third supporting roller 14 and the fourth supporting roller 15 roll and support the second flexible belt 16, the second flexible belt 16 conveys the sundries in the cavity 17 to the inside of the conveying cavity 5, the second half supporting sleeve 18 carries out spacing isolation and support on the sundries in the cavity 17, when the cavity 17 moves to the inside of the conveying cavity 5, the cavity 17 rotates downwards, the sundries in the cavity 17 are conveyed to the inside of the conveying cavity 5, and simultaneously when the second half supporting sleeve 18 moves to a rotary position, the second half supporting sleeve 18 pulls the first half spherical shell 23 of the conveying frame 19 downwards, with the continuous movement of the second half-supporting sleeve 18, the first half-spherical shell 23 can be continuously pulled downwards, the first half-spherical shell 23 drives the third flexible belt 22 to make a rotary movement, the fifth supporting roller 20 and the sixth supporting roller 21 roll and support the third flexible belt 22, the first half-spherical shell 23 makes a rotary movement with the third flexible belt 22, the opening of the first half-spherical shell 23 at the side close to the collecting cavity 4 is designed to be downward inclined, the opening of the first half-spherical shell 23 at the side far away from the collecting cavity 4 is designed to be upward inclined, so that when the first half-spherical shell 23 at the side close to the conveying frame 6 moves to the lower part of the conveying frame 6, the first half-spherical shell 23 can push the sundries in the conveying cavity 5 downwards, when the first half-spherical shell 23 makes a rotary movement along the lowest end of the conveying frame 19, the first half-spherical shell 23 can collect the sundries at the inner side of the first half-spherical shell 23, and then, first hemisphere shell 23 carries out rotary motion when moving 19 topmost of carriage, 23 openings of first hemisphere shell are down, 23 inside debris of first hemisphere shell are to the whereabouts, when debris are to the whereabouts, 23 top spherical structures of first hemisphere shell that are located the below can carry on spacingly to debris, with debris to collecting the inside guide in chamber 4, debris are collecting 4 inside collections in the collection chamber, the automatically cleaning of usable rainwater is handled to filter assembly 7 to the gravity and the impact force realization, and can carry to filter debris and collect and gather, regularly to collect chamber 4 clear up can, can effectively guarantee rainwater circulation treatment effect.

2-4, further comprising a plurality of through grooves 27 disposed between the top of the collecting chamber 4 and the conveying chamber 5, wherein a first supporting shaft 28 connected in a rotating manner is disposed at the bottom of the inner wall of the through grooves 27, a first torsion spring 29 is sleeved on the outer wall of the first supporting shaft 28, a first supporting rod 30 is disposed on the outer wall of the first supporting shaft 28 near one side, a second hemispherical shell 31 matched with the first hemispherical shell 23 is disposed at one end of the first supporting rod 30 far away from the first supporting shaft 28, the opening of the second hemispherical shell 31 faces upward when the second hemispherical shell 31 is located inside the conveying chamber 5, a second supporting shaft 32 connected in a rotating manner is disposed on the inner wall of the mounting chamber 13, a second torsion spring 33 is sleeved on the outer wall of the second supporting shaft 32, and a second supporting rod 34 is disposed on one side of the outer wall of the second supporting shaft 32, the second support rod 34 extends into the mounting cavity 13, and a plurality of elastic members 35 are arranged at the bottom of the second support rod 34.

The height of the through groove 27 is greater than the sum of the outer diameter of the first support shaft 28, the length of the first support rod 30 and the outer diameter of the second hemispherical shell 31, so that the second hemispherical shell 31 can pass through the through groove 27.

Rainwater filter frame 1 inner wall be equipped with second back shaft 32 assorted mounting groove 36, mounting groove 36 with installation cavity 13 link up, and mounting groove 36 provides installation space for second back shaft 32.

The elastic member 35 comprises a spring 37, a supporting ball 38 is arranged at one end of the spring 37 far away from the second supporting rod 34, the spring 37 elastically supports the supporting ball 38, and the supporting ball 38 can slide in contact with the outer wall of the first half supporting sleeve 11.

The implementation mode is specifically as follows: when in use, through the through groove 27, the first support shaft 28, the first torsion spring 29, the first support rod 30, the second hemispherical shell 31, the second support shaft 32, the second torsion spring 33, the second support rod 34 and the elastic member 35, when the first half support sleeve 11 moves upwards in the installation cavity 13, the first half support sleeve 11 pushes the second support rod 34 upwards, the second support rod 34 deflects upwards, the second support rod 34 drives the second support shaft 32 to rotate, the second torsion spring 33 elastically supports the second support shaft 32, the second torsion spring 33 can drive the second support shaft 32 to rebound and move, and further drives the second support rod 34 to vibrate, the second support rod 34 is in contact with the outer wall of the first half support sleeve 11, the first half support sleeve 11 can be vibrated, sundries in the first half support sleeve 11 can be vibrated, and the filter hole 12 is prevented from being blocked by sundries, the filtering treatment effect is ensured, the elastic piece 35 and the first half supporting sleeve 11 are subjected to elastic vibration treatment again, and the cleaning degree of the first half supporting sleeve 11 can be further enhanced; when the first hemispherical shell 23 is moved to the top end of the conveying frame 19 to perform a rotating motion, the first hemispherical shell 23 is opened downwards, the second hemispherical shell 31 is positioned below the first hemispherical shell 23, the sundries inside the first hemispherical shell 23 fall into the first hemispherical shell 23, when the first hemispherical shell 23 moves downwards, the first hemispherical shell 23 pulls the second hemispherical shell 31 outwards, the first supporting rod 30 supports the second hemispherical shell 31, the first supporting shaft 28 rotatably supports the first supporting rod 30, the first torsion spring 29 elastically supports the first supporting shaft 28, the second hemispherical shell 31 moves into the collecting cavity 4 through the through groove 27, the first torsion spring 29 compresses, the second hemispherical shell 31 tilts after moving into the collecting cavity 4, the sundries inside the second hemispherical shell 31 fall into the collecting cavity 4, the first torsion spring 29 rebounds to move the second hemispherical shell 31 into the conveying cavity 5 again through the through groove 27, accept debris once more, can effectively guarantee that debris are carried and collect the chamber 4 inside, debris collection effect is better.

The working principle of the invention is as follows:

referring to the attached drawings 1-7 of the specification, by arranging a rainwater filtering frame 1, a water storage tank 2, a filtering cavity 3, a collecting cavity 4, a conveying cavity 5, a conveying frame 6, a filtering component 7 and a conveying frame 19, the filtering component 7 in the filtering cavity 3 filters rainwater, the conveying frame 6 can carry and convey sundries to the conveying cavity 5, the conveying frame 19 can convey the sundries into the collecting cavity 4, the collecting cavity 4 collects the sundries, the self-cleaning treatment of the filtering component 7 can be realized by utilizing the gravity and the impact force of the rainwater, the filtered sundries can be conveyed, collected and gathered, the collecting cavity 4 is cleaned regularly, and the rainwater circulation treatment effect can be effectively ensured;

referring to the attached drawings 2-4 in the specification, through the arrangement of the through groove 27, the first support shaft 28, the first torsion spring 29, the first support rod 30, the second hemispherical shell 31, the second support shaft 32, the second torsion spring 33, the second support rod 34 and the elastic member 35, the first hemispherical support sleeve 11 can be vibrated, sundries inside the first hemispherical support sleeve 11 can be vibrated, the filtering hole 12 is prevented from being blocked by the sundries, the filtering treatment effect is ensured, the sundries can be received by the second hemispherical shell 31 and fall into the collecting cavity 4, the first torsion spring 29 rebounds, the second hemispherical shell 31 passes through the through groove 27 and moves into the conveying cavity 5 again, the sundries are received again, the sundries can be effectively conveyed into the collecting cavity 4, and the sundries collecting effect is better.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a sponge urban road rainwater integration circulation processing system, includes rainwater filter rack (1) and cistern (2), its characterized in that: rainwater filter frame (1) is located cistern (2) top center, rainwater filter frame (1) inside center is equipped with filter chamber (3), rainwater filter frame (1) inside in filter chamber (3) outside symmetry is equipped with collects chamber (4), rainwater filter frame (1) inside in collect chamber (4) outside symmetry and be equipped with transport chamber (5), collect chamber (4) with transport chamber (5) link up, rainwater filter frame (1) inside in two the level is equipped with conveying frame (6) between transport chamber (5), conveying frame (6) one end extends to inside transport chamber (5), conveying frame (6) other end extends to filter chamber (3) below.

2. The integrated circulation treatment system for rainwater on the sponge urban road according to claim 1, characterized in that: the rainwater filter frame (1) inner wall in filter chamber (3) with collect between the chamber (4) and be equipped with installation cavity (13), the vertical symmetry in the inside both sides of installation cavity (13) is equipped with filtering component (7), filtering component (7) include first backing roll (8) and second backing roll (9), first backing roll (8) with second backing roll (9) with installation cavity (13) inner wall rotates and is connected, first backing roll (8) with second backing roll (9) outer wall cover is equipped with same first flexible area (10), first flexible area (10) outer wall is equipped with a plurality of first half supporting sleeve (11), first half supporting sleeve (11) bottom is equipped with a plurality of filtration pore (12), first flexible area (10) extend to inside filter chamber (3), be located inside filter chamber (3) first half supporting sleeve (11) opening up, be located inside installation cavity (13) first half support sleeve (11) opening down, transfer frame (6) include third backing roll (14) and fourth backing roll (15), third backing roll (14) with fourth backing roll (15) respectively with rainwater filter frame (1) inner wall rotates and is connected, third backing roll (14) with fourth backing roll (15) outer wall cover is equipped with same second flexible band (16), second flexible band (16) outer wall is equipped with cavity (17), cavity (17) inner wall is equipped with a plurality of second half support sleeve (18), is located the top second half support sleeve (18) opening orientation filter cavity (3), is located the below second half support sleeve (18) opening orientation transport chamber (5), first half support sleeve (11) with second half support sleeve (18) crisscross the setting, two adjacent first half supporting sleeves (11) are arranged in a staggered manner, a conveying frame (19) is vertically arranged in the conveying cavity (5), the conveyor frame (19) comprises a fifth supporting roller (20) and a sixth supporting roller (21), the fifth supporting roller (20) and the sixth supporting roller (21) are respectively in rotating connection with the inner wall of the conveying cavity (5), the outer walls of the fifth supporting roller (20) and the sixth supporting roller (21) are sleeved with a same third flexible belt (22), a plurality of first hemispherical shells (23) are arranged on the outer wall of the third flexible belt (22), the openings of the first hemispherical shells (23) close to one side of the collecting cavity (4) are inclined downwards, the openings of the first hemispherical shells (23) far away from one side of the collecting cavity (4) are inclined upwards, the first hemispherical shells (23) are staggered with respect to the second half-support sleeves (18).

3. The integrated circulation treatment system for rainwater on the sponge urban road according to claim 2, characterized in that: a movably connected sealing plug (24) is arranged at the top of the outer wall of the rainwater filtering frame (1) above the collecting cavity (4).

4. The integrated circulation treatment system for rainwater on the sponge urban road according to claim 2, characterized in that: the rainwater filter frame (1) is symmetrically provided with arc-shaped strips (25) at the top of the inner wall of the filter cavity (3).

5. The integrated circulation treatment system for rainwater on the sponge urban road according to claim 2, characterized in that: and a seventh supporting roller (26) is rotatably arranged between the fifth supporting roller (20) and the sixth supporting roller (21) of the conveying frame (19), and the seventh supporting roller (26) is arranged on the inner side of the third flexible belt (22).

6. The integrated circulation treatment system for rainwater on the sponge urban road according to claim 2, characterized in that: the cross section outer diameter of the first half supporting sleeve (11) is larger than one half of the inner diameter of the filtering cavity (3), and the cross section outer diameter of the first half supporting sleeve (11) is smaller than two thirds of the inner diameter of the filtering cavity (3).

7. The integrated circulation treatment system for rainwater on the sponge urban road according to claim 2, characterized in that: collect chamber (4) top with it leads to groove (27) to be equipped with a plurality of between transport chamber (5), it is equipped with first supporting shaft (28) that the rotation is connected to lead to groove (27) inner wall bottom, first supporting shaft (28) outer wall cover is equipped with first torsional spring (29), first supporting shaft (28) outer wall is close to one side is equipped with first bracing piece (30), first bracing piece (30) are kept away from first supporting shaft (28) one end be equipped with first hemisphere shell (23) assorted second hemisphere shell (31), second hemisphere shell (31) are located when transport chamber (5) is inside second hemisphere shell (31) opening up, installation chamber (13) inner wall is equipped with second back shaft (32) that the rotation is connected, second back shaft (32) outer wall cover is equipped with second torsional spring (33), second back shaft (32) outer wall one side is equipped with second bracing piece (34), the second supporting rod (34) extends to the inside of the mounting cavity (13), and a plurality of elastic pieces (35) are arranged at the bottom of the second supporting rod (34).

8. The integrated recycling treatment system for rainwater on the sponge urban road according to claim 7, characterized in that: the height of the through groove (27) is greater than the sum of the outer diameter of the first support shaft (28), the length of the first support rod (30), and the outer diameter of the second hemispherical shell (31).

9. The integrated recycling treatment system for rainwater on the sponge urban road according to claim 7, characterized in that: rainwater filter frame (1) inner wall be equipped with second back shaft (32) assorted mounting groove (36), mounting groove (36) with installation cavity (13) link up.

10. The integrated recycling treatment system for rainwater on the sponge urban road according to claim 7, characterized in that: the elastic piece (35) comprises a spring (37), and one end, far away from the second support rod (34), of the spring (37) is provided with a support ball (38).