CN211948667U

CN211948667U - Rainwater reposition of redundant personnel collecting system

Info

Publication number: CN211948667U
Application number: CN202020424601.6U
Authority: CN
Inventors: 石健水; 朱正荣; 黄赣闽; 刘海荣; 郑遂军
Original assignee: SHANGHAI CHENGTOU YINGZHOU DOMESTIC GARBAGE DISPOSAL CO Ltd
Current assignee: SHANGHAI CHENGTOU YINGZHOU DOMESTIC GARBAGE DISPOSAL CO Ltd
Priority date: 2020-03-27
Filing date: 2020-03-27
Publication date: 2020-11-17
Anticipated expiration: 2030-03-27

Abstract

The utility model relates to a rainwater reposition of redundant personnel collecting system, including the catch basin, first wash port and second wash port have been seted up to the catch basin bottom, the catch basin downside is equipped with initial stage rainwater pond and follow-up rainwater pond, is equipped with water level detection device in the initial stage rainwater pond, is equipped with diverging device between initial stage rainwater pond and the follow-up rainwater pond, is equipped with the controller on the catch basin, and the controller is connected with the water level detection device electricity. The utility model discloses an initial stage rainwater is flowed into in the initial stage rainwater pond by the catch basin, when water level detection device detected the water level in the initial stage rainwater pond and reached the setting value, the second wash port was opened when controller control diverging device closed first wash port, rainwater inflow follow-up rainwater pond this moment, initial stage rainwater drains into sewage treatment system, follow-up rainwater directly is used for the vegetation afforestation in factory, through the separately collection of initial stage rainwater and follow-up rainwater, rationally retrieve the rainwater to reach better collection effect of recycling.

Description

Rainwater reposition of redundant personnel collecting system

Technical Field

The utility model belongs to the technical field of the technique of rainwater recovery and specifically relates to a rainwater reposition of redundant personnel collecting system is related to.

Background

The transportation, loading and unloading, the crushing process of rubbish in the msw incineration power plant easily cause the pollution of road, weighbridge region and transportation approach bridge, and a small amount of dust and a small amount of landfill leachate that leaks in the transportation process will be smugglied secretly to the initial rainwater, and is similar with domestic drainage pollution degree. If the initial rainwater is not collected and treated and is discharged to natural water along with the rainwater, the ecological environment and the human health of human beings are harmed. Therefore, the collection and disposal of the initial rainwater have important significance for protecting the ecological environment and improving the life quality of people.

Chinese utility model patent with the current publication number CN208152193U discloses a rainwater recycling system, including: a plurality of catch basins, cistern, clean water basin and clear water shunt tubes say, and a plurality of catch basins pass through pipeline and cistern intercommunication, are equipped with a plurality of filtration interlayers in the cistern, and a plurality of filtration interlayers are equipped with the first water pump that drains filterable clear water to the clean water basin in separating for the cistern for a plurality of filtering ponds, and the intercommunication has a plurality of clear water shunt tubes way on the clean water basin in the rightmost side filtering ponds.

Among the above-mentioned technical scheme, the rainwater passes through the catch basin and collects and elementary sediment, in sewer line drainage to the cistern again, rainwater in the cistern is by left right side in proper order through filtering the interlayer, filters for the clear water when to last filtering ponds, drains the clear water pond through first water pump again, shunts through a plurality of clear water diversion pipelines and utilizes, realizes collection, purification and the utilization of rainwater from this. However, in the scheme, due to the fact that the water quality of the initial rainwater and the later rainwater is different, the initial rainwater is high in pollutant content, and the later rainwater is relatively clean, so that rainwater is unreasonably recycled.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, one of the purposes of the utility model is to provide a rainwater reposition of redundant personnel collecting system, it separately collects initial stage rainwater and follow-up rainwater, has realized the reasonable recovery of rainwater, has better collection effect of recycling.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

a rainwater shunting and collecting system comprises a water collecting tank communicated with the ground, wherein a first drainage hole for initial rainwater drainage and a second drainage hole for subsequent rainwater drainage are formed in the bottom of the water collecting tank, an initial rainwater tank for collecting water discharged from the first drainage hole and a subsequent rainwater tank for collecting water discharged from the second drainage hole are communicated with the lower side of the water collecting tank, a water level detection device for detecting a water level is arranged in the initial rainwater tank, a shunting device for switching the communication condition of the first drainage hole and the second drainage hole is arranged between the initial rainwater tank and the subsequent rainwater tank, and a controller for controlling the shunting device is electrically connected to the water collecting tank.

By adopting the technical scheme, the first drain hole is in an open state in the initial stage of no rain and rain, the second drain hole is in a closed state, when rainwater flows into the water collecting tank, the rainwater flows into the initial rainwater tank through the first drainage hole, the water level detection device detects the water level in the initial rainwater tank, when the water level in the initial rainwater tank reaches a set value, the water level detection device transmits a signal to the controller, the controller controls the flow dividing device to close the first drain hole and open the second drain hole at the same time, and then the rainwater in the water collecting tank flows into the subsequent rainwater tank through the second drain hole, so that the initial rainwater and the subsequent rainwater are separately collected, and initial rainwater containing pollutants is discharged into a sewage treatment system for treatment, the concentration of the pollutants in the rainwater in the subsequent rainwater tank is lower, and the rainwater is directly used for vegetation greening of a plant area, so that the reasonable recovery of the rainwater is realized, and a better collection and reutilization effect is achieved.

The present invention may be further configured in a preferred embodiment as: the water level detection device comprises a floating plate which moves up and down due to the rise and fall of the water level and a distance sensor which senses the height of the floating plate, and the distance sensor is electrically connected with the controller.

Through adopting above-mentioned technical scheme, the density of kickboard is less than the density of water and floats on the surface of water, it is highly unanimous with initial stage rainwater pond water level in the pond, distance sensor passes through the position of response kickboard, judge the water level height in the pond, when initial stage rainwater pond water level height reaches the setting value, distance sensor turns into the signal with the water level height that detects and conveys to the controller, controller control diverging device makes first wash port closed and the second wash port is opened, thereby the timely switching of first wash port and second wash port intercommunication condition has been ensured.

The present invention may be further configured in a preferred embodiment as: and a sliding groove for the floating plate to slide is formed in the inner side wall of the initial rainwater pool.

Through adopting above-mentioned technical scheme, the spout has restricted that the kickboard can only follow the spout and slide from top to bottom, prevents the kickboard skew distance sensor to water level detection device's normal operating has been ensured.

The present invention may be further configured in a preferred embodiment as: the shunting device comprises a first wedge-shaped plate for blocking the first water drainage hole, one end of the first wedge-shaped plate, a first rack fixedly connected with the bottom of the first wedge-shaped plate, and a second wedge-shaped plate for blocking the second water drainage hole, one end of the second wedge-shaped plate, a second rack fixedly connected with the bottom of the second wedge-shaped plate, a gear and a drive which are meshed with the first rack and the second rack respectively, a driving motor and a driving motor are driven to rotate the gear, the gear and the driving motor are supported by a shunting box, the first rack is located on two sides of the gear, and the driving motor is electrically connected with the controller.

By adopting the technical scheme, no rain and the initial stage of raining, second wedge-shaped plate shutoff second wash port, first drain hole is opened, the rainwater that just goes into in the catch basin flows into in the initial stage rainwater basin by first drain hole, when the water level reaches the setting value in the initial stage rainwater basin, controller control driving motor rotates, driving motor drives the gear and rotates, first rack rebound this moment, second rack rebound simultaneously, first drain hole of first wedge-shaped plate shutoff along with first rack rebound, the second wedge-shaped plate makes the second drain hole open along with second rack rebound, rainwater flows into follow-up rainwater pond in the catch basin, with this reposition of redundant personnel of realization initial stage rainwater and follow-up rainwater.

The present invention may be further configured in a preferred embodiment as: the inner bottom surface of the flow distribution box faces the initial rainwater pool, inclines and is provided with a waterproof groove.

Through adopting above-mentioned technical scheme, the diversion box bottom is to the slope of initial stage rainwater pond and seted up the capillary groove, if have the rainwater not be in care of splashing into the diversion box in, the rainwater is arranged like the initial stage rainwater pond by the capillary groove, has avoided gear and driving motor to soak in the rainwater to the security of system operation has further been ensured.

The present invention may be further configured in a preferred embodiment as: the upper surface of first wedge board reaches the second wedge board all establishes to the inclined plane, first wedge groove and second wedge groove have been seted up respectively to the lower bottom surface of catch basin, first wedge groove with first wedge board cooperation of sliding, the second wedge groove with the cooperation of sliding of second wedge board.

Through adopting above-mentioned technical scheme, the upper surface of first wedge board and second wedge board sets up to the inclined plane, be favorable to with the rainwater to keeping away from one side water conservancy diversion at gear center and get into in the initial stage rainwater pond, get into the reposition of redundant personnel case when preventing the rainwater from flowing out by the catch basin, thereby have the protection motor, the effect of gear and controller, and the lower bottom surface of catch basin has seted up first wedge groove and second wedge groove, when the first drainage hole of first wedge board shutoff, first wedge board is located first wedge inslot, and the upper surface of first wedge board and the inner wall laminating of first wedge groove, prevent that the rainwater from flowing out by the clearance of catch basin with first wedge board, thereby the shutoff effect of first wedge board has been improved, and the same reason, the cooperation of second wedge board and second wedge groove also has waterproof and improves the effect of shutoff.

The present invention may be further configured in a preferred embodiment as: and a drainage pump communicated with the initial rainwater pool is arranged outside the initial rainwater pool, and the water outlet end of the drainage pump is communicated with a domestic sewage pipeline.

Through adopting above-mentioned technical scheme, the drain pump is taken the rainwater in the initial stage rainwater pond out to in carrying to domestic sewage treatment system through domestic sewage pipeline, the initial stage rainwater is discharged up to standard after domestic sewage treatment system handles, avoid containing the initial stage rainwater of pollutant to discharge into natural environment and cause the pollution.

The present invention may be further configured in a preferred embodiment as: and a filter screen for covering the first drain hole and the second drain hole is arranged in the water collecting tank.

Through adopting above-mentioned technical scheme, the filter screen filters the rainwater in the catch basin, and the rainwater after the filtration flows into initial stage rainwater pond or follow-up rainwater pond, prevents to block up the drain pump to the quality of water of catch basin play water has been ensured.

To sum up, the utility model discloses a following at least one useful technological effect:

1. the initial rainwater flows into the initial rainwater tank from the water collecting tank, when the water level detection device detects that the water level in the initial rainwater tank reaches a set value, the controller controls the flow dividing device to close the first drainage hole and open the second drainage hole at the same time, at the moment, the rainwater flows into the subsequent rainwater tank, the initial rainwater is drained into the sewage treatment system, the subsequent rainwater is directly used for vegetation greening of a plant area, and the initial rainwater and the subsequent rainwater are separately collected to reasonably recover the rainwater, so that a better collection and reutilization effect is achieved;

2. when the water level detection device works, the floating plate moves upwards under the action of buoyancy, the height of the floating plate is consistent with that of the water level in the water pool, the distance sensor senses the change of the distance between the floating plate and the distance sensor, the height of the water level in the initial rainwater pool is judged, and the timely switching of the communication condition of the first drainage hole and the second drainage hole is ensured;

3. when the shunting device works, the controller controls the driving motor to rotate, the driving motor drives the gear to rotate, the first rack and the second rack move in opposite directions simultaneously, one of the first drain hole and the second drain hole is opened, and the other one of the first drain hole and the second drain hole is closed, so that shunting of initial rainwater and subsequent rainwater is realized.

Drawings

Fig. 1 is a schematic structural diagram of the embodiment.

Fig. 2 is a partially enlarged view of a in fig. 1.

Reference numerals: 1. a water collecting tank; 11. a first drain hole; 12. a second drain hole; 13. a filter screen; 14. a first wedge groove; 15. a second wedge-shaped groove; 16. a controller; 2. an initial rain pool; 21. draining pump; 3. a subsequent rain pool; 31. a water outlet well; 32. a lift pump; 321. a riser tube; 33. a dividing wall; 331. fixing grooves; 41. a first wedge plate; 42. a second wedge plate; 43. a first rack; 44. a second rack; 45. a gear; 46. a drive motor; 47. a shunt box; 471. a waterproof groove; 5. a water level detection device; 51. a floating plate; 52. a chute; 53. a distance sensor.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, for the utility model discloses a rainwater reposition of redundant personnel collecting system, including catch basin 1, initial stage rainwater pond 2, follow-up rainwater pond 3 and diverging device. The water collecting tank 1 is a rectangular tank body, and the interior of the tank body is hollow. Referring to fig. 2, a first drainage hole 11 and a second drainage hole 12 are formed at the bottom of the water collecting tank 1, and openings of the first drainage hole 11 and the second drainage hole 12 are rectangular. A filter screen 13 is arranged on the inner bottom surface of the water collecting tank 1, the filter screen 13 covers the first drain hole 11 and the second drain hole 12, and the filter screen 13 filters rainwater to ensure the quality of the water discharged from the water collecting tank 1.

Referring to fig. 1, the initial rain water tank 2 has a rectangular parallelepiped shape and is hollow inside. Initial stage rainwater pond 2 is located first drainage hole 11 downside, and its upper surface pastes and fixed connection with the lower surface of catch basin 1, and initial stage rainwater in the catch basin 1 is by first through-hole inflow initial stage rainwater pond 2 with first drainage hole 11 intercommunication, initial stage rainwater in the catch basin 2. The drainage pump 21 is arranged outside the initial rainwater pool 2, the water inlet end of the drainage pump 21 is communicated with the interior of the initial rainwater pool 2, and the water outlet end of the drainage pump is communicated with the domestic sewage pipeline. As pollutants are contained in the initial rainwater, the initial rainwater is conveyed to the domestic sewage treatment system by the drainage pump 21 and is discharged after reaching the standard after being treated by the domestic sewage treatment system.

Referring to fig. 1, a water level detection device 5 is provided in an initial rainwater tank 2, and the water level detection device 5 includes a floating plate 51, a chute 52, and a distance sensor 53. The floating plate 51 has a rectangular plate-like structure, the length direction of which coincides with the width direction of the initial rain water tank 2, and the density of the floating plate 51 is lower than that of water, and can be suspended on the water surface. The slide groove 52 is opened on the inner side wall of the initial rain pool 2 perpendicular to the length direction of the floating plate 51, and the end part of the floating plate 51 is in sliding fit with the slide groove 52. The distance sensor 53 is fixed on the inner top surface of the initial rainwater tank 2, and the distance sensor 53 senses the position of the floating plate 51, thereby determining the height of the water level in the tank. The controller 16 is fixedly provided on the inner top surface of the initial rain pool 2, and the controller 16 is electrically connected to the distance sensor 53.

Referring to fig. 1, the subsequent rain water tank 3 is rectangular, and has a hollow interior and a volume larger than that of the initial rain water tank 2, and the subsequent rain water tank 3 is attached and fixed to the adjacent side wall of the initial rain water tank 2 to form a partition wall 33. The subsequent rainwater pool 3 is positioned at the lower side of the second drain hole 12, the upper surface of the subsequent rainwater pool is attached to and fixedly connected with the lower surface of the water collecting pool 1, the top of the subsequent rainwater pool 3 is communicated with the second drain hole 12, the subsequent rainwater in the water collecting pool 1 flows into the subsequent rainwater pool 3 through the second via hole, and the subsequent rainwater can be directly used for vegetation greening of a plant area. The subsequent rain water pool 3 is provided with a water outlet well 31 which is positioned on one side of the upper surface of the subsequent rain water pool 3, which is far away from the initial rain water pool 2, the water outlet well 31 is communicated with the interior of the subsequent rain water pool 3, and the upper end of the water outlet well is communicated with the ground. A lifting pump 32 is fixedly arranged on the inner bottom surface of the subsequent rainwater pool 3, and the lifting pump 32 is positioned at the lower side of the water outlet well 31. The water outlet end of the lift pump 32 is provided with a water outlet pipe, one end of the water outlet pipe is communicated and fixed with the water outlet end of the lift pump 32, and the other end of the water outlet pipe extends out of the well 31. The subsequent rainwater is lifted to the ground through the water outlet well 31 by the lifting pump 32, so that the rainwater can be conveniently used by workers.

Referring to fig. 1 and 2, a flow dividing device is located between the initial rainwater tank 2 and the subsequent rainwater tank 3, and the flow dividing device includes a first wedge plate 41, a second wedge plate 42, a first rack 43, a second rack 44, a gear 45, a driving motor 46, and a flow dividing box 47. The first wedge-shaped plate 41 and the second wedge-shaped plate 42 are both rectangular plate-shaped structures, and are respectively located at the lower sides of the first drain hole 11 and the second drain hole 12, the area of the first wedge-shaped plate 41 is larger than that of the first drain hole 11, and the area of the second wedge-shaped plate 42 is larger than that of the second drain hole 12. When the first wedge-shaped plate 41 moves upwards and is attached to the lower bottom surface of the water collecting tank 1, the first drainage hole 11 is closed, and the first wedge-shaped plate 41 blocks the first drainage hole 11. Similarly, when the second wedge-shaped plate 42 moves upwards and is attached to the lower bottom surface of the water collecting tank 1, the second water discharging hole 12 is closed, and the second wedge-shaped plate 42 blocks the second water discharging hole 12.

Referring to fig. 1 and 2, the upper portion of the partition wall 33 is formed with a fixing groove 331, the fixing groove 331 is formed in a rectangular parallelepiped shape, and both sides of the fixing groove 331 are respectively communicated with the initial rainwater tank 2 and the subsequent rainwater tank 3. The flow dividing box 47 has a rectangular box-shaped structure, and the flow dividing box 47 is fixedly connected with the inner wall of the fixing groove 331. Driving motor 46 and gear 45 all set up in reposition of redundant personnel case 47, and driving motor 46 adopts waterproof motor, and driving motor 46 is connected with controller 16 electricity, and it is with reposition of redundant personnel case 47 an inside wall fixed connection, and driving motor 46's output shaft level and with gear 45 center fixed connection. The first rack 43 and the second rack 44 are respectively located at two sides of the gear 45 and meshed with the gear 45, the top end of the first rack 43 is fixedly connected with the lower bottom surface of the first wedge-shaped plate 41, and the top end of the second rack 44 is fixedly connected with the lower bottom surface of the second wedge-shaped plate 42. When the water level in the initial rainwater pool 2 reaches the designed value, the distance sensor 53 converts the detected water level height into a signal and transmits the signal to the controller 16, the controller 16 controls the driving motor 46 to rotate, the driving motor 46 drives the gear 45 to rotate, so that the first rack 43 moves downwards and the second rack 44 moves upwards simultaneously, at the moment, the first wedge-shaped plate 41 and the second wedge-shaped plate 42 synchronously and reversely move along with the first rack 43 and the second rack 44 respectively, the switching of opening and closing of the first drainage hole 11 and the second drainage hole 12 is realized, and the purpose of shunting and collecting initial rainwater and subsequent rainwater is achieved.

Referring to fig. 2, the upper surfaces of the first wedge-shaped plate 41 and the second wedge-shaped plate 42 are both inclined surfaces, the lower bottom surface of the water collecting tank 1 is respectively provided with a first wedge-shaped groove 14 and a second wedge-shaped groove 15, the first wedge-shaped plate 41 is in sliding fit with the first wedge-shaped groove 14, and the second wedge-shaped plate 42 is in sliding fit with the second wedge-shaped groove 15. When first drainage hole 11 is opened, the inclined plane of first wedge-shaped plate 41 is favorable to getting into initial stage rainwater pond 2 with the downward water conservancy diversion of the play water of first drainage hole 11 in, gets into reposition of redundant personnel case 47 when preventing the rainwater from flowing out by catch basin 1 to have the effect of protection motor, gear 45 and controller 16. When first drainage hole 11 of first wedge-shaped plate 41 shutoff, first wedge-shaped plate 41 is located first wedge-shaped groove 14 and with the inner wall laminating of first wedge-shaped groove 14, prevents that the rainwater from flowing out by catch basin 1 and first wedge-shaped plate 41's clearance to improved first wedge-shaped plate 41's shutoff effect, in the same way, second wedge-shaped plate 42 also has waterproof and improvement shutoff effect's effect with second wedge-shaped groove 15's cooperation.

Referring to fig. 2, the inner bottom surface of the diversion box 47 is formed as an inclined surface, and the height of the side close to the initial rain water pool 2 is lower than that of the side close to the subsequent rain water pool 3. The inside wall of the initial rainwater pool 2 close to the diversion box 47 is provided with a waterproof groove 471, and an opening of the waterproof groove 471 is rectangular and is communicated with the initial rainwater pool 2. The diversion box 47 keeps the water outlet of the water collecting tank 1 outside, so that the gear 45, the driving motor 46 and the controller 16 are prevented from being damaged by rainwater, and the rainwater carelessly splashed into the diversion box 47 is discharged into the initial rainwater tank 2 by the waterproof groove 471, so that the gear 45 and the driving motor 46 are prevented from being soaked in the rainwater, and the safety of system operation is further ensured.

The implementation principle of the embodiment is as follows: when rainwater flows into the water collecting tank 1, the rainwater flows into the initial rainwater tank 2 through the first drainage hole 11, the water level detection device 5 detects the water level in the initial rainwater tank 2, when the water level in the initial rainwater tank 2 reaches a set value, the distance sensor 53 converts the detected water level into a signal and transmits the signal to the controller 16, the controller 16 controls the driving motor 46 to rotate, the driving motor 46 drives the gear 45 to rotate, the first rack 43 moves downwards and the second rack 44 moves upwards simultaneously, the first drainage hole 11 is closed and the second drainage hole 12 is opened simultaneously, at the same time, the rainwater in the water collecting tank 1 flows into the subsequent rainwater tank 3 through the second drainage hole 12, the separate collection of the initial rainwater and the subsequent rainwater is realized, and the initial rainwater containing pollutants is discharged into a sewage treatment system for treatment, the rainwater in the subsequent rainwater tank 3 is directly used for vegetation greening of the plant area, reasonable recovery of the rainwater is achieved, and therefore a good collecting and recycling effect is achieved.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims

1. The utility model provides a rainwater reposition of redundant personnel collecting system, includes catch basin (1) with ground intercommunication, its characterized in that: the rainwater collection and drainage device is characterized in that a first drainage hole (11) for initial rainwater drainage and a second drainage hole (12) for subsequent rainwater drainage are formed in the bottom of the water collection tank (1), an initial rainwater tank (2) for collecting water discharged from the first drainage hole (11) and a subsequent rainwater tank (3) for collecting water discharged from the second drainage hole (12) are communicated with the lower side of the water collection tank (1), a water level detection device (5) for detecting a water level is arranged in the initial rainwater tank (2), a flow dividing device for switching the communication condition of the first drainage hole (11) and the second drainage hole (12) is arranged between the initial rainwater tank (2) and the subsequent rainwater tank (3), and a controller (16) for controlling the flow dividing device is electrically connected to the water collection tank (1).

2. A rainwater diversion and collection system according to claim 1 and further comprising: the water level detection device (5) comprises a floating plate (51) which moves up and down by the rise and fall of the water level and a distance sensor (53) which senses the height of the floating plate (51), wherein the distance sensor (53) is electrically connected with the controller (16).

3. A rainwater diversion and collection system according to claim 2 and further comprising: and a sliding chute (52) for the floating plate (51) to slide is formed in the inner side wall of the initial rainwater pool (2).

4. A rainwater diversion and collection system according to claim 1 and further comprising: the flow dividing device comprises a first wedge-shaped plate (41) for blocking the first water drainage hole (11), a first rack (43) with one end fixedly connected with the bottom of the first wedge-shaped plate (41), a second wedge-shaped plate (42) for blocking the second water drainage hole (12), a second rack (44) with one end fixedly connected with the bottom of the second wedge-shaped plate (42), a gear (45) which is meshed with the first rack (43) and the second rack (44), a driving motor (46) for driving the gear (45) to rotate and a flow dividing box (47) for supporting the gear (45) and the driving motor (46), wherein the first rack (43) and the second rack (44) are located on two sides of the gear (45), and the driving motor (46) is electrically connected with the controller (16).

5. A rainwater diversion and collection system according to claim 4 and further comprising: the inner bottom surface of the flow dividing box (47) inclines towards the initial rainwater pool (2) and is provided with a waterproof groove (471).

6. A rainwater diversion and collection system according to claim 4 and further comprising: first wedge board (41) and the upper surface of second wedge board (42) all establishes to the inclined plane, first wedge groove (14) and second wedge groove (15) have been seted up respectively to the lower bottom surface of catch basin (1), first wedge groove (14) with first wedge board (41) cooperation of sliding, second wedge groove (15) with second wedge board (42) cooperation of sliding.

7. A rainwater diversion and collection system according to claim 1 and further comprising: and a drainage pump (21) communicated with the initial rainwater pool (2) is arranged outside the initial rainwater pool (2), and the water outlet end of the drainage pump (21) is communicated with a domestic sewage pipeline.

8. A rainwater diversion and collection system according to claim 1 and further comprising: and a filter screen (13) which covers the first drain hole (11) and the second drain hole (12) is arranged in the water collecting tank (1).