CN117188586B - Road rainwater storage and purification system for non-concave machine non-isolation belt - Google Patents

Abstract

The invention discloses a road rainwater storage and purification system for a non-concave machine non-isolation belt, and belongs to the technical field of road rainwater treatment. The road bed comprises the curbs symmetrically arranged on the road bed layer, a bearing plate is arranged between the symmetrically arranged curbs, planting soil is arranged on the bearing plate, a water collecting pit is arranged in the road bed layer right below the curbs, and a graded gravel layer and a gravel drainage layer are sequentially paved in the water collecting pit from top to bottom; the middle part of catchment pit is equipped with the overflow well, the one end of overflow well is located the top of grading gravel layer, and the other end is located the bottom of gravel drainage layer, a plurality of perforation blind pipes have been laid in the gravel drainage layer, one end of perforation blind pipe is in overflow well intercommunication, the bottom of overflow well is equipped with outer downspout. The technical scheme is used for solving the problem that the traditional road rainwater garden can damage the original landscape or sponge facilities can not be built due to the lack of a concave space on the ground surface of the green belt.

Description

Road rainwater storage and purification system for non-concave machine non-isolation belt

Technical Field

The invention belongs to the technical field of road rainwater treatment, and particularly relates to a road rainwater storage and purification system for a non-concave machine non-isolation belt.

Background

The current popular road rainwater control method is to set a rainwater garden, a sinking green land and the like on two sides of a road, or to construct a green isolation belt into a concave shape, and then set the rainwater garden by combining with terrains so as to realize the effect of regulating and purifying the road rainwater. The common principle of a road rainwater garden is as follows:

As shown in fig. 8, in the conventional road sponge facility, the rainwater runoff passes through the road cross slope, enters the submerged rainwater garden through the vegetation buffer zone, then passes through the infiltration purification, enters the municipal rainwater pipe network through the blind pipe and the drainage rainwater pipe, and the out-of-standard rainwater is discharged through the overflow well. The facility has good effect of regulating and purifying the road rainfall runoff, and is widely applied. However, in actual engineering, the terrain where the rainwater garden is located is often a greenbelt which is raised or is flush with the road, and in order to obtain enough depressed storage space, a large excavation amount and sinking amount are required, so that the construction cost of sponge facilities is high. In addition, the landscape effect of the original green land is greatly reduced by excavating the original green land. Conventional road rain gardens often fail to function adequately due to a number of constraints.

In addition to traditional road stormwater gardens, some researchers are exploring other new road stormwater control systems. Chinese patent document CN206359928U discloses a "concave greenbelt structure applied to road machine non-isolation belt". The method is characterized in that sediment and impurities carried by road surface runoffs are intercepted by a groove structure of a sewage interception section of a concave green land; and densely planting shrubs at the connecting section of the dirt intercepting section and the concave section to effectively intercept garbage and floating suspended matters in road runoff. But this method has the following disadvantages: the system is not suitable for a mechanical non-isolation belt or a mechanical non-isolation belt of a non-concave road, has poor landscape effect and has large requirements on the section space of the whole system. Chinese patent document CN 108118769A discloses a "sponge city rainwater stagnating and storing purifying system". The method is that the sinking green land is led into a rainwater multifunctional collecting well and a deslagging and sand settling device, and the removal efficiency of suspended matters with the grain diameter of more than 125 mu m can reach 70 percent. But this method has the following disadvantages: is mainly suitable for rainwater purification, has high equipment cost and is not suitable for non-concave green lands.

The common mechanical and non-isolation belt in China is in a convex or level form with the road surface, and the construction form has good landscape effect, but is unfavorable for the construction of road sponge facilities. The traditional road sponge urban facilities all need a certain surface concave space, so that rainwater runoffs are converged to enter the sponge facilities during raining, and further collection and purification are performed. Therefore, in actual engineering, under the condition of encountering a non-recessed isolation belt, the construction of the road rainwater sponge facility cannot be easily realized, and in order to achieve the expected rainwater control effect, higher cost investment is required, and a larger construction space is reserved. In addition, due to the fact that a concave space is needed to be arranged in the construction of the traditional road sponge facility, the original landscape effect of the non-isolation belt of the machine is often damaged.

Disclosure of Invention

In view of the above, the invention aims to provide a road rainwater storage and purification system for a non-recessed machine non-isolation belt, which is used for solving the problem that the traditional road rainwater garden may damage the original landscape or sponge facilities cannot be built due to the lack of a surface recessed space of a green belt.

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

The invention relates to a road rainwater storage and purification system for a non-recessed machine non-isolation belt, which comprises curbs symmetrically arranged on a road surface layer, wherein bearing plates are arranged between the curbs symmetrically arranged, planting soil is arranged on the bearing plates, water collecting pits are arranged in the road surface layer right below the curbs, and a graded gravel layer and a gravel drainage layer are sequentially paved in the water collecting pits from top to bottom; the middle part of catchment pit is equipped with the overflow well, the one end of overflow well is located the top of grading gravel layer, and the other end is located the bottom of gravel drainage layer, a plurality of perforation blind pipes have been laid in the gravel drainage layer, one end of perforation blind pipe is in overflow well intercommunication, the bottom of overflow well is equipped with outer downspout, the one end and the overflow well intercommunication of outer downspout, the other end and the municipal rainwater pipe network intercommunication of outer downspout, be equipped with a plurality of rainwater water conservancy diversion passageways on the curb, the rainwater water conservancy diversion passageway is used for the rainwater water conservancy diversion with flowing on the pavement layer to catchment pit in.

Further, it is characterized in that: waterproof geotechnical cloth is paved on the inner side surface of the water collecting pit.

Further, the upper end of the overflow well is 20-30cm higher than the graded crushed stone layer.

Further, the aperture of the perforated blind pipe is smaller than the particle size of the gravel in the gravel pack.

Further, one end of the rainwater diversion channel, which is positioned on the pavement layer, is provided with a filter screen.

Further, the rainwater diversion channel is located the installation casing that it joint set up is equipped with to the one end inside on the road surface layer, the edge of filter screen is fixed in on the installation casing, be equipped with the wash port with rainwater diversion channel intercommunication on the one end that installation casing and filter screen are relative.

Further, the filter screen is flexible filter screen, the inside of installation casing is equipped with the rotary mechanism who utilizes the rain wash to realize rotating, rotary mechanism's both ends rotate and connect on the medial surface of installation casing, be equipped with a plurality of V type connecting rods and horizontal connecting rod between rotary mechanism and the filter screen, the one end of V type connecting rod rotates with the one end of horizontal connecting rod to be connected, the other end of horizontal connecting rod is connected on the filter screen, rotary mechanism contacts with the other end of V type connecting rod when rotatory, the inside of installation casing is equipped with the connecting axle, a plurality of the equal swivelling joint in middle part of V type connecting rod is on the connecting axle, the top of connecting axle is equipped with the mounting panel of tip and installation casing fixed connection, be equipped with the reset spring with V type connecting rod quantity matching on the mounting panel, reset spring's both ends are fixed in mounting panel and V type connecting rod respectively.

Further, rotary mechanism includes the hollow barrel of column, the both ends of the hollow barrel of column rotate and connect on the installation casing, be equipped with a set of breakwater subassembly on the surface of the hollow barrel of column, the breakwater subassembly includes a plurality of breakwater, a plurality of breakwater circumference equipartition is on the hollow barrel of column.

Further, rotary mechanism includes the hollow barrel of column, the both ends of the hollow barrel of column rotate and connect on the installation casing, be equipped with on the surface of the hollow barrel of column with V type connecting rod quantity matching's breakwater subassembly, a set of the breakwater subassembly includes a plurality of breakwater, a plurality of breakwater circumference equipartition is on the hollow barrel of column, and the breakwater staggers the setting between two adjacent breakwater.

Further, a connecting framework is arranged at one end of the transverse connecting rod, which is connected with the filter screen, and two opposite side surfaces of the connecting framework are respectively fixed on the end parts of the flexible filter screen and the transverse connecting rod.

The invention has the beneficial effects that:

(1) Can be well integrated with the landscape of the mechanical and non-isolation belt, and does not influence the landscape effect.

The device does not need a concave earth surface regulation space, does not need to excavate green land, furthest reserves the landscape effect of the original organic non-isolation zone, and can be fully fused with the original landscape.

(2) The sinking height of the sponge facilities can be reduced, and the construction space is saved.

The regulation space of the facility is arranged below the ground of the mechanical and non-isolation belt, and the surface concave space is not needed, so that the whole sinking amount of the facility is reduced. The reduced subsidence is about 70-90cm (about the thickness of the planted soil layer) compared to a conventional road rain garden.

(3) The construction section can be flexibly selected according to actual needs.

The construction section of the facility can be flexibly selected in combination with the actual construction condition of the road. For example, the method can be used for constructing a whole road section aiming at an area with serious runoff pollution, high water quality protection requirement and good topography condition; aiming at the areas with general terrain conditions and low requirements for runoff pollution and water quality protection, individual point location construction can be selected to save investment.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention. The objects and other advantages of the invention may be realized and obtained by means of the instrumentalities and combinations particularly pointed out in the specification.

Drawings

In order to make the objects, technical solutions and advantageous effects of the present invention more clear, the present invention provides the following drawings for description:

FIG. 1 is a schematic plan view of a road rainwater storage and purification system in embodiment 1 of the present invention;

fig. 2 is a schematic perspective view of the connection between the flexible filter screen and the mounting housing and the transverse link in embodiment 1 of the present invention;

FIG. 3 is a schematic diagram showing a front cross-sectional view of the flexible filter screen of embodiment 1 of the invention in connection with the mounting housing and transverse links;

fig. 4 is a schematic perspective connection diagram of the flexible filter screen and the transverse connecting rod in embodiment 1 of the present invention;

fig. 5 is a schematic perspective view of connection between the flexible filter screen and the transverse link according to embodiment 2 of the present invention;

FIG. 6 is a schematic view of a three-dimensional connection of a flexible filter screen to a mounting housing of the present invention;

FIG. 7 is a schematic perspective view of another view of the flexible filter screen of the present invention connected to a mounting housing;

Fig. 8 is a view showing a conventional road rainy garden according to the prior art.

The figures are marked as follows:

1. A road surface layer; 2. a road base layer; 3. a raw soil layer; 4. a curb; 5. planting soil; 6. a filter screen; 7. a rainwater diversion channel; 8. a bearing plate; 9. grading the crushed stone layer; 10. an outer drainage rain pipe; 11. a gravel drainage layer; 12. waterproof geotextile; 13. perforating a blind pipe; 14. an overflow well; 15. a mounting shell; 16. a drain hole; 17. a flexible filter screen; 18. a columnar hollow cylinder; 19. a water baffle; 20. a V-shaped connecting rod; 21. a connecting shaft; 22. a transverse link; 23. a mounting plate; 24. a return spring; 25. and connecting the skeletons.

Detailed Description

Example 1

As shown in fig. 1, the embodiment of the application discloses a road rainwater storage and purification system for a non-recessed machine non-isolation belt, and discloses a sponge urban rainwater storage and purification facility applicable to the non-recessed machine non-isolation belt. Referring to fig. 1, the facility includes a curb 4, a central opening of the curb 4 is formed as a diversion channel 7 for road rainwater, and a filter screen 6 is disposed at a water inlet of the diversion channel 7 for intercepting dirt impurities in the rainwater, etc. The lower part of the curb 4 is provided with a bearing platform for placing a bearing plate 8, and planting soil 5 is filled into a space formed by the bearing plate 8 and the curb 4 together for planting landscape plants. The inner filler layers of the facility are respectively a graded crushed stone layer 9 and a gravel layer 11 from top to bottom. The gravel graded layer 9 can play the role of energy dissipation and infiltration purification, the gravel layer 11 can provide a regulation and storage space (water collecting pit) and play the role of drainage, and the perforated blind pipes 13 are arranged in the gravel layer 11 and are responsible for collecting rainwater oozed out of the filler layer and are communicated with the overflow well 14, and the aperture of the perforated blind pipes 13 is smaller than the grain size of the gravel layer 11. The water inlet Gao Chengying of the overflow well 14 is about 20cm above the graded stone layer 9 to provide sufficient conditioning space. The overflow well 14 is connected with the outer drainage rainwater pipe 10 and is responsible for removing out-of-standard rainwater, the outer drainage rainwater pipe 10 is connected with a municipal rainwater pipe network and is responsible for final connection of road rainwater and the municipal rainwater pipe network. In order to prevent the loss of the filler layer and the reverse osmosis of the groundwater, waterproof geotextile 11 needs to be paved on the surfaces of the roadbed layer 2 and the original soil layer 3.

It should be noted that, in order to further realize the effect of collecting the rivers, this system will not motor vehicle road cross slope is from traditional "from the intermediate slope to the pavement" adjustment to "from pavement slope to the form of non-motor vehicle lane" to set up in the lower part of machine non-isolation belt, both kept the original view effect of machine non-isolation belt, can fully play again to the effect of stagnating purification to the road rainwater.

The implementation principle of the sponge urban rainwater storage and purification facility suitable for the non-concave machine non-isolation belt provided by the embodiment of the application is as follows:

The road rainwater runoff flows to the two side curbs 4 along the road slope direction, and enters the rainwater diversion channel 7 after being intercepted by the filter screen 6. The rainwater guided into the facility firstly passes through the energy dissipation of the graded broken stone layer 9, then passes through the graded broken stone layer 9 and the gravel layer 11 for filtering and purifying, and is discharged into the outer drainage rainwater pipe 10 through the perforated blind pipe 13. For the excessive rainfall, the precipitation in the storage space is directly entered into the outer drainage rainwater pipe 10 through the overflow well 14. The outer drainage rainwater pipe 10 finally drains the road rainwater to the municipal rainwater pipe network.

The device is arranged on the non-isolation belt part of the machine, and the non-isolation belt part of the machine is provided with a plurality of green plants, so that a large amount of leaves are mixed in rainwater on the ground layer in rainy days, the filter screen 6 is easily blocked by the leaves when the filter screen contacts, and the problem of poor drainage effect is caused.

Specifically, as shown in fig. 2-7, in an implementation manner, an installation shell 15 which is clamped with the rainwater diversion channel 7 is arranged inside one end of the pavement layer 1, the installation shell 15 can be in a square tube or round tube shape, the shape of the installation shell is matched with the shape of the inner wall of the rainwater diversion channel 7, the clamping can be achieved, the edge of the filter screen 6 is fixed on the edge of one end of the installation shell 15, and a drain hole 16 which is communicated with the rainwater diversion channel 7 is formed in one end, opposite to the filter screen 6, of the installation shell 15.

As shown in the figure, in an embodiment, the filter screen 6 is a flexible filter screen 17, it is to be noted that the flexible filter screen 17 refers to a stainless steel square grid (formed by spot welding or braiding and bendable) with flexibility, a rotating mechanism for realizing rotation by rain washing is arranged in the installation shell 15, two ends of the rotating mechanism are rotatably connected to the inner side surface of the installation shell 15, a plurality of V-shaped connecting rods 20 and transverse connecting rods 22 are arranged between the rotating mechanism and the filter screen 6, in this embodiment, the number of the V-shaped connecting rods 20 is 3, one end of each V-shaped connecting rod 20 is rotatably connected with one end of each transverse connecting rod 22, the other end of each transverse connecting rod 22 is connected to the filter screen 6, the rotating mechanism contacts with the other end of each V-shaped connecting rod 20 when rotating, a connecting shaft 21 is arranged in the installation shell 15, the middle parts of the V-shaped connecting rods 20 are rotatably connected to the connecting shaft 21, a mounting plate 23 with the end fixedly connected to the installation shell 15 is arranged above the connecting shaft 21, reset springs 24 matched with the number of the V-shaped connecting rods 20 are arranged on the mounting plate 23, and two ends of the reset springs 24 are respectively fixed to the mounting plates 23 and the V-shaped connecting rods 20.

The operating principle of the rotating mechanism is that, in rainy days, rainwater flows into the installation housing 15 through the flexible filter screen 17, when the rotating mechanism is flushed by rainwater, the rotating mechanism rotates, in the rotating process, one ends of a plurality of groups of V-shaped connecting rods 20 are extruded, when the V-shaped connecting rods 20 rotate, the other ends of the V-shaped connecting rods 20 drive the transverse connecting rods 22 to translate, the transverse connecting rods 22 drive the flexible filter screen 17 to transversely move, when the rotating mechanism contacts with the end parts of the V-shaped connecting rods 20, the V-shaped connecting rods 20 are driven to reset under the action of the reset springs 24, the flexible filter screen 17 is driven to reset, so that circulation is realized, when the water is drained, the filter screen 6 continuously transversely moves back and forth to form shaking, namely leaves or impurities adhered to the filter screen are separated due to shaking, or after gaps appear between the impurities such as leaves and the flexible filter screen 17 in the shaking process, the separation is caused by flushing of water flow, namely the problem that the flexible filter screen 17 is blocked by leaves and the like, so that the drainage effect of the whole system is poor is avoided.

In one embodiment, the rotating mechanism comprises a cylindrical hollow cylinder 18, two ends of the cylindrical hollow cylinder 18 are rotatably connected to the mounting housing 15, a group of water baffle 19 assemblies are arranged on the outer surface of the cylindrical hollow cylinder 18, each water baffle 19 assembly comprises a plurality of water baffles 19, the water baffles 19 are circumferentially and uniformly distributed on the cylindrical hollow cylinder 18, the structure of the arrangement mode is simple, the water baffles 19 and the cylindrical hollow cylinder 18 form a rotating blade mode, namely, the water baffles 19 can continuously rotate under the impact of water flow, and then the ends of the V-shaped connecting rods 20 are extruded.

In one embodiment, the transverse connecting rod 22 is provided with a connecting framework 25 at one end connected with the filter screen 6, two opposite side surfaces of the connecting framework 25 are respectively fixed on the end parts of the flexible filter screen 17 and the transverse connecting rod 22, and the estimated arrangement is connected, so that the force of the end part of the transverse connecting rod 22 can be transmitted to a larger range, and the filter screen 6 is vibrated as a whole.

Example 2

Embodiment 2 is different from embodiment 1 in that the number of sets of the water baffle 19 components is different, the specific rotating mechanism comprises a cylindrical hollow cylinder 18, two ends of the cylindrical hollow cylinder 18 are rotatably connected to the mounting shell 15, the water baffle 19 components matched with the number of the V-shaped connecting rods 20 are arranged on the outer surface of the cylindrical hollow cylinder 18, namely, three sets of water baffle 19 components are arranged in the embodiment, one set of water baffle 19 components comprises a plurality of water baffles 19, the water baffles 19 are circumferentially and uniformly distributed on the cylindrical hollow cylinder 18, and the water baffles 19 between two adjacent water baffles 19 are staggered.

In this embodiment, the staggered arrangement may be understood that the angles of the water baffles 19 in the first and third groups of water baffles 19 are the same, and the setting angle of the middle second group of water baffles 19 deviates from the first and second groups by a certain angle, such as 30 °, which may be specifically designed and determined according to practical situations.

The multi-group water baffle 19 assembly is arranged, and the water baffles 19 in the water baffle 19 assembly are staggered in angle, so that when the rainwater flushes the water baffles 19 to rotate the columnar hollow cylinder 18, due to the staggered angle of the water baffles 19, different bending motions can be generated on adjacent parts of the flexible filter screen 17 due to different moments of acting on the ends of the V-shaped connecting rods 20 by the water baffles 19 in the adjacent water baffles 19 assembly, even if bending vibration in multiple directions can be generated on the adjacent parts of the flexible filter screen 17, the flexible filter screen 17 is not uniformly vibrated together integrally, namely, the vibration effect is better, the adhered leaves and the like on the water baffles are more easily shaken off or gaps are formed between the leaves and the flexible filter screen 17 in the vibration process of being easier, and then the water is separated under the flushing of rainwater.

The system that provides among this technical scheme relies on the reasonable horizontal slope of road, the rainwater with motor vehicle lane and non-motor vehicle lane is led into the regulation space under the median through curb 4 (this regulation space is less than road layer 1 horizon, be located between road base layer 2 and the former soil layer 3), rainwater that gathers in the regulation space is partly after penetrating purification through grading rubble bed course, gravel drainage layer etc. gets into outer rainwater pipe through perforation blind pipe, the rainwater of remaining part exceeding standard passes through overflow mode and directly gets into outer rainwater pipe, outer rainwater pipe is responsible for the final connection of road rainwater and municipal rainwater pipe network.

The system is completely located underground, reduces the sinking height compared with the traditional road rainwater garden facilities, can be fused with the landscape effect of the existing isolation belt, can effectively collect the rainwater on the road surface under the condition of not affecting the landscape effect of the isolation belt, and fully plays roles in regulating and purifying the facilities. Meanwhile, the facility engineering is flexible in site selection, and can be used for selecting the construction of a whole road section or a part of key road sections according to actual conditions.

Finally, it is noted that the above-mentioned preferred embodiments are only intended to illustrate rather than limit the invention, and that, although the invention has been described in detail by means of the above-mentioned preferred embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the scope of the invention as defined by the appended claims.

Claims (7)

1. A road rainwater holds and stagnates clean system for non-concave quick-witted non-median, its characterized in that: the road bed comprises the curbs symmetrically arranged on the road bed layer, a bearing plate is arranged between the symmetrically arranged curbs, planting soil is arranged on the bearing plate, a water collecting pit is arranged in the road bed layer right below the curbs, and a graded gravel layer and a gravel drainage layer are sequentially paved in the water collecting pit from top to bottom; the middle part of the water collecting pit is provided with an overflow well, one end of the overflow well is positioned above the graded gravel layer, the other end of the overflow well is positioned at the bottom of the gravel drainage layer, a plurality of perforated blind pipes are laid in the gravel drainage layer, one end parts of the perforated blind pipes are communicated with the overflow well, the bottom end of the overflow well is provided with an outer drainage rain pipe, one end of the outer drainage rain pipe is communicated with the overflow well, the other end of the outer drainage rain pipe is communicated with a municipal rainwater pipe network, a plurality of rainwater diversion channels are arranged on the curb, and the rainwater diversion channels are used for diversion of rainwater flowing on the pavement layer into the water collecting pit;

A filter screen is arranged at one end of the rainwater diversion channel, which is positioned on the pavement layer; the rainwater diversion channel is provided with a mounting shell which is arranged in a clamping way with the rainwater diversion channel at one end of the pavement layer, the edge of the filter screen is fixed on the mounting shell, and a drain hole communicated with the rainwater diversion channel is arranged at one end of the mounting shell opposite to the filter screen; the filter screen is flexible filter screen, the inside of installation casing is equipped with the rotary mechanism who utilizes the rain wash to realize rotating, rotary mechanism's both ends rotate and connect on the medial surface of installation casing, be equipped with a plurality of V type connecting rods and horizontal connecting rod between rotary mechanism and the filter screen, the one end of V type connecting rod rotates with the one end of horizontal connecting rod to be connected, the other end of horizontal connecting rod is connected on the filter screen, rotary mechanism contacts with the other end of V type connecting rod when rotatory, the inside of installation casing is equipped with the connecting axle, a plurality of the equal swivelling joint in middle part of V type connecting rod is on the connecting axle, the top of connecting axle is equipped with the mounting panel of tip and installation casing fixed connection, be equipped with the reset spring with V type connecting rod quantity matching on the mounting panel, reset spring's both ends are fixed in mounting panel and V type connecting rod respectively.

2. The system for purifying road rainwater accumulation in a non-recessed machine non-isolation belt according to claim 1, wherein: waterproof geotechnical cloth is paved on the inner side surface of the water collecting pit.

3. The system for purifying road rainwater accumulation in a non-recessed machine non-isolation belt according to claim 1, wherein: the upper end of the overflow well is 20-30cm higher than the graded broken stone layer.

4. The system for purifying road rainwater accumulation in a non-recessed machine non-isolation belt according to claim 1, wherein: the aperture of the perforated blind pipe is smaller than the particle size of the gravel in the gravel drainage layer.

5. The system for purifying road rainwater accumulation in a non-recessed machine non-isolation belt according to claim 1, wherein: the rotary mechanism comprises a cylindrical hollow cylinder body, two ends of the cylindrical hollow cylinder body are rotationally connected to the mounting shell, a group of water baffle assemblies are arranged on the outer surface of the cylindrical hollow cylinder body, each water baffle assembly comprises a plurality of water baffles, and the water baffles are circumferentially and uniformly distributed on the cylindrical hollow cylinder body.

6. The system for purifying road rainwater accumulation in a non-recessed machine non-isolation belt according to claim 1, wherein: the rotating mechanism comprises a cylindrical hollow cylinder body, two ends of the cylindrical hollow cylinder body are rotationally connected to the mounting shell, a water baffle assembly matched with the number of the V-shaped connecting rods is arranged on the outer surface of the cylindrical hollow cylinder body, a group of water baffle assemblies comprises a plurality of water baffles, the water baffles are circumferentially and uniformly distributed on the cylindrical hollow cylinder body, and the water baffles between two adjacent water baffles are staggered.

7. The system for purifying road rainwater accumulation in a non-recessed machine non-isolation belt according to claim 1, wherein: the connecting framework is arranged at one end of the transverse connecting rod, which is connected with the filter screen, and two opposite side surfaces of the connecting framework are respectively fixed on the end parts of the flexible filter screen and the transverse connecting rod.