CN112323939A - Town road rainwater guiding device - Google Patents

Abstract

The invention discloses a municipal road rainwater flow guiding device, which structurally comprises a fixed groove plate, a rainwater flow guiding structure, a concrete deep frame, a flow guiding straight pipe and a sewer, and has the following effects: the rainwater diversion structure is vertically arranged on the concrete deep frame and is positioned and installed through the fixed trough plate, the rainwater diversion structure can utilize buoyancy of water in rainy days to lift the lifting water filtering mechanism to increase water inflow and water filtering area, and meanwhile, the movable position of the impurity collecting mechanism can be automatically changed according to the flow direction, so that garbage and impurities flowing along with water are intercepted, and the water inflow is increased.

Description

Town road rainwater guiding device

Technical Field

The invention relates to the field of municipal pipelines, in particular to a municipal road rainwater flow guide device.

Background

The sewer is an urban municipal facility, a pipeline for discharging sewage and rainwater of a building also refers to an underground passage for discharging sewage and rainwater of a city, a factory area or a village, grids are usually arranged at low-lying positions of a community and are connected with the municipal sewer, the rainwater is more favorably collected because the low-lying positions carry impurities such as plastic bags and the like to be attached to the surfaces of the grids, so that the water flow rate of the water flowing into a water outlet through the grids is reduced, the drainage effect of the grids is reduced, and the grids are blocked, therefore, a municipal road rainwater flow guiding device needs to be developed, the problem that the water flow rate of the water flowing into the water outlet through the grids is reduced because the low-lying positions are more favorably collected by the rainwater and the rainwater carries the impurities such as the plastic bags and the like to be attached to the surfaces of the grids is solved, reducing the drainage effect of the grating.

Summary of the invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: the utility model provides a town road rainwater guiding device, its structure includes fixed frid, rainwater water conservancy diversion structure, the dark frame of concrete, water conservancy diversion straight tube, sewer, the dark frame inside of concrete be equipped with rainwater water conservancy diversion structure, rainwater water conservancy diversion structure and the dark frame of concrete connect, the dark frame top of concrete be equipped with fixed frid, fixed frid and rainwater water conservancy diversion structure fixed connection, the dark frame bottom of concrete be equipped with the water conservancy diversion straight tube, the water conservancy diversion straight tube install perpendicularly on the dark frame of concrete to with rainwater water conservancy diversion structural connection, water conservancy diversion straight tube bottom be equipped with the sewer, sewer and water conservancy diversion straight tube connect.

As a further optimization of the technical scheme, the rainwater flow guiding structure comprises an impurity collecting mechanism, a lifting water filtering mechanism, a flow guiding liquid frame, a water outlet and a flow guiding flat ring, wherein the lifting water filtering mechanism is arranged at the center of the flow guiding liquid frame, the lifting water filtering mechanism is matched with the flow guiding liquid frame, the impurity collecting mechanism is arranged on the lifting water filtering mechanism, the impurity collecting mechanism is matched with the lifting water filtering mechanism, the flow guiding flat ring is arranged below the lifting water filtering mechanism, the flow guiding flat ring is fixedly connected with the flow guiding liquid frame, the water outlet is formed in the bottom of the flow guiding liquid frame, and the water outlet and the flow guiding liquid frame are of an integrated structure.

As the further optimization of this technical scheme, the miscellaneous mechanism of collection including back seat, gag lever post, spring, drainage frame, straight flute, grooved bar one end level set up on the annular to the two adopts sliding fit, the grooved bar on be equipped with the straight flute, straight flute and grooved bar structure as an organic whole, the straight flute on be equipped with the drainage frame, drainage frame and straight flute adopt sliding fit, grooved bar rear end be equipped with the back seat, back seat and grooved bar fixed connection, grooved bar both sides be equipped with the gag lever post, the gag lever post fix on the drainage frame to adopt sliding fit with the back seat, drainage frame rear end be equipped with the spring, the spring around both ends fix on drainage frame and back seat.

As the further optimization of this technical scheme, the drainage frame including link block, curb plate, movable filter plate, connection canvas, floating partition, link block locate on the straight flute to adopt sliding fit through straight flute and groove pole, the link block both sides all be equipped with the curb plate, curb plate and link block fixed connection, curb plate bottom be equipped with movable filter plate, movable filter plate and curb plate adopt sliding fit, link block below be equipped with floating partition, the floating partition both sides all be equipped with the connection canvas, floating partition be connected with floating partition through connecting the canvas.

As a further optimization of this technical scheme, lift drainage mechanism including annular, roof, round platform, filtrating crown plate, water conservancy diversion ring, filtrating lift cover top be equipped with the roof, roof and filtrating lift cover fixed connection, the roof outer lane on be equipped with the annular, annular and roof structure as an organic whole, filtrating lift cover outer lane on be equipped with the filtrating crown plate, filtrating crown plate and filtrating lift cover adopt sliding fit, filtrating crown plate bottom be equipped with the water conservancy diversion ring, water conservancy diversion ring and filtrating crown plate fixed connection, the roof top be equipped with the round platform, round platform and roof fixed connection.

As the further optimization of this technical scheme, filtrating lift cover including filtrating circle cover, water conservancy diversion under ring, buoyancy ring, delivery port, filtrating circle cover bottom be equipped with water conservancy diversion under ring, water conservancy diversion under ring and filtrating circle cover fixed connection, water conservancy diversion under ring bottom be equipped with the buoyancy ring, buoyancy ring and water conservancy diversion under ring connect, buoyancy ring central point put and be equipped with the delivery port, delivery port and filtrating circle cover structure as an organic whole, the circumference diameter that the buoyancy ring formed be less than the circumference diameter of water conservancy diversion ring, inside the water conservancy diversion liquid frame was located to the water conservancy diversion ring, and the circumference diameter that forms was less than the circumference diameter of water conservancy diversion liquid frame.

Advantageous effects

The municipal road rainwater flow guide device is reasonable in design and strong in functionality, and has the following beneficial effects:

the rainwater flow guiding structure is vertically arranged on the concrete deep frame and is positioned and installed through the fixed trough plate, the rainwater flow guiding structure can enable the lifting water filtering mechanism to rise by utilizing the buoyancy of water in rainy days so as to increase the water inflow and the water filtering area, and meanwhile, the impurity collecting mechanism can automatically change the movable position according to the flow direction so as to intercept garbage and impurities flowing along with water, thereby increasing the water inflow;

in the invention, the filtrate ring plate is arranged at the top of the flow guide liquid frame, the flow guide ring is arranged below the filtrate ring plate, the flow guide ring is in a circular truncated cone-shaped structure, the center of the flow guide ring is circularly hollowed out, rainwater flows into the flow guide liquid frame through the filtrate ring plate in rainy days, bypasses the buoyancy ring arranged at the bottom of the filtrate circular cover under the guiding action of the flow guide ring, passes through the top of the flow guide flat ring and is sequentially discharged into a sewer from a water outlet and a flow guide straight pipe, and the flow guide flat ring is arranged below the buoyancy ring, so that the lifting height of the filtrate circular cover can be determined by the water quantity, the water inflow and the water filtering area are increased, and the municipal drainage pressure is reduced;

the section of the ring groove is of a concave structure at the central position, two sides of the ring groove are outwards turned, one end of a groove rod is horizontally arranged on the ring groove, the two groove rods are in sliding fit, the connecting sliding block is arranged on the straight groove and is in sliding fit with the groove rod through the straight groove, the side plates are arranged on two sides of the connecting sliding block in an axisymmetric structure and are arranged on a splayed structure, so that the side plates can rise along with the rising height of the filtrate round cover, the movable filter plate falls along with the rising of the side plates, the movable partition plate falls along with the rising of the groove rod, the movable filter plate and the movable partition plate are always attached to the plane of the fixed groove plate, and under the arrangement of the movable partition plate, the movable partition plate is pushed to turn along the direction of flowing in rainy days, the side plates drive the movable partition plate to turn, so that garbage and impurities flowing along with water are intercepted, and under the structure, and two blocks of curb plates that are the setting of axial symmetry structure can change the expansion size along with the size of rainwater flow under the cooperation of link block to reduce the rainwater and to the impact force of structure, be favorable to increasing simultaneously into water flow.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a front sectional view of a municipal road rainwater diversion apparatus of the present invention;

FIG. 2 is a front sectional view of the rainwater diversion structure of the present invention;

FIG. 3 is a schematic top view of the impurity collecting mechanism according to the present invention;

FIG. 4 is a front sectional view of the drainage frame of the present invention;

FIG. 5 is a schematic diagram of a front sectional structure of the lifting water filtering mechanism of the present invention;

FIG. 6 is a schematic side sectional view of the filtrate lifting cover of the present invention.

In the figure: a fixed groove plate-1, a rainwater diversion structure-2, a sundries collecting mechanism-21, a rear seat-21 a, a limiting rod-21 b, a spring-21 c, a drainage frame-21 d, a connecting slide block-21 d1, a side plate-21 d2, a movable filter plate-21 d3, a connecting canvas-21 d4, a movable clapboard-21 d5, a straight groove-21 e, a groove rod-21 f, a lifting water filtering mechanism-22, an annular groove-22 a, a top plate-22 b, a circular table-22 c, a filtrate annular plate-22 d, a drainage ring-22 e, a filtrate lifting cover-22 f, a filtrate circular cover-22 f1, a diversion bottom ring-22 f2, a buoyancy ring-22 f3, a water outlet-22 f4, a diversion liquid frame-23, a water outlet-24, a diversion flat ring-25, a concrete deep frame-3, a water outlet, a water inlet, A flow guide straight pipe-4 and a sewer-5.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

Referring to fig. 1-4, the present invention provides an embodiment of a municipal road rainwater diversion apparatus:

please refer to fig. 1, a municipal road rainwater diversion device structurally comprises a fixed groove plate 1, a rainwater diversion structure 2, a concrete deep frame 3, a diversion straight pipe 4 and a sewer 5, wherein the rainwater diversion structure 2 is arranged inside the concrete deep frame 3, the rainwater diversion structure 2 is connected with the concrete deep frame 3, the fixed groove plate 1 is arranged at the top of the concrete deep frame 3, the fixed groove plate 1 is fixedly connected with the rainwater diversion structure 2, the diversion straight pipe 4 is arranged at the bottom of the concrete deep frame 3, the diversion straight pipe 4 is vertically arranged on the concrete deep frame 3 and is connected with the rainwater diversion structure 2, the sewer 5 is arranged at the bottom of the diversion straight pipe 4, and the sewer 5 is connected with the diversion straight pipe 4.

Referring to fig. 2, the rainwater diversion structure 2 includes an impurity collecting mechanism 21, a lifting water filtering mechanism 22, a diversion liquid frame 23, a water outlet 24, and a diversion flat ring 25, the lifting water filtering mechanism 22 is disposed at the center of the diversion liquid frame 23, the lifting water filtering mechanism 22 is matched with the diversion liquid frame 23, the impurity collecting mechanism 21 is disposed on the lifting water filtering mechanism 22, the impurity collecting mechanism 21 is matched with the lifting water filtering mechanism 22, the diversion flat ring 25 is disposed below the lifting water filtering mechanism 22, the diversion flat ring 25 is fixedly connected with the diversion liquid frame 23, the water outlet 24 is disposed at the bottom of the diversion liquid frame 23, the water outlet 24 and the diversion liquid frame 23 are integrated, and the diversion liquid frame 23 is connected with the diversion straight pipe 4 through the water outlet 24.

Referring to fig. 3, the impurity collecting mechanism 21 includes a rear seat 21a, a limiting rod 21b, a spring 21c, a drainage frame 21d, a straight groove 21e, and a groove rod 21f, one end of the groove rod 21f is horizontally disposed on the annular groove 22a, and the two are in sliding fit, the groove rod 21f is provided with the straight groove 21e, the straight groove 21e and the groove rod 21f are integrated, the straight groove 21e is provided with the drainage frame 21d, the drainage frame 21d and the straight groove 21e are in sliding fit, the rear end of the groove rod 21f is provided with the rear seat 21a, the rear seat 21a and the groove rod 21f are fixedly connected, two limiting rods 21b are parallelly and equidistantly disposed on two sides of the groove rod 21f, the limiting rods 21b are fixed on the drainage frame 21d and are in sliding fit with the rear seat 21a, the rear end of the drainage frame 21d is parallelly and equidistantly provided with two springs 21c, the front end and the rear end of the spring 21c are fixed on the drainage frame 21d and the rear seat 21 a.

Referring to fig. 4, the drainage frame 21d includes a connecting slider 21d1, a side plate 21d2, a movable filter plate 21d3, a connecting canvas 21d4, and a movable partition plate 21d5, the connecting slider 21d1 is disposed on a straight slot 21e and is in sliding fit with a slot rod 21f through the straight slot 21e, the connecting slider 21d1 is provided with side plates 21d2 on both sides, the side plate 21d2 is fixedly connected with a connecting slider 21d1, the movable filter plate 21d3 is disposed at the bottom of the side plate 21d2, the movable filter plate 21d3 and the side plate 21d2 are in sliding fit, the movable partition plate 21d5 is disposed below the connecting slider 21d1, the movable partition plate 21d5 is disposed at the bottom of the slot rod 21f and is in sliding fit with the slot rod 21d4, the movable partition plate 21d 465 is connected with the movable partition plate 21d5 through the connecting canvas 21d 57323, the two side plates 21d2 are arranged in an axisymmetric structure and are arranged on two sides of the connecting slide block 21d1 in a splayed structure.

Example 2

Referring to fig. 1-6, the present invention provides an embodiment of a municipal road rainwater diversion apparatus:

please refer to fig. 1, a municipal road rainwater diversion device structurally comprises a fixed groove plate 1, a rainwater diversion structure 2, a concrete deep frame 3, a diversion straight pipe 4 and a sewer 5, wherein the rainwater diversion structure 2 is arranged inside the concrete deep frame 3, the rainwater diversion structure 2 is connected with the concrete deep frame 3, the fixed groove plate 1 is arranged at the top of the concrete deep frame 3, the fixed groove plate 1 is fixedly connected with the rainwater diversion structure 2, the diversion straight pipe 4 is arranged at the bottom of the concrete deep frame 3, the diversion straight pipe 4 is vertically arranged on the concrete deep frame 3 and is connected with the rainwater diversion structure 2, the sewer 5 is arranged at the bottom of the diversion straight pipe 4, and the sewer 5 is connected with the diversion straight pipe 4.

Referring to fig. 2, the rainwater diversion structure 2 includes an impurity collecting mechanism 21, a lifting water filtering mechanism 22, a diversion liquid frame 23, a water outlet 24, and a diversion flat ring 25, the lifting water filtering mechanism 22 is disposed at the center of the diversion liquid frame 23, the lifting water filtering mechanism 22 is matched with the diversion liquid frame 23, the impurity collecting mechanism 21 is disposed on the lifting water filtering mechanism 22, the impurity collecting mechanism 21 is matched with the lifting water filtering mechanism 22, the diversion flat ring 25 is disposed below the lifting water filtering mechanism 22, the diversion flat ring 25 is fixedly connected with the diversion liquid frame 23, the water outlet 24 is disposed at the bottom of the diversion liquid frame 23, the water outlet 24 and the diversion liquid frame 23 are integrated, and the diversion liquid frame 23 is connected with the diversion straight pipe 4 through the water outlet 24.

Referring to fig. 3, the impurity collecting mechanism 21 includes a rear seat 21a, a limiting rod 21b, a spring 21c, a drainage frame 21d, a straight groove 21e, and a groove rod 21f, one end of the groove rod 21f is horizontally disposed on the annular groove 22a, and the two are in sliding fit, the groove rod 21f is provided with the straight groove 21e, the straight groove 21e and the groove rod 21f are integrated, the straight groove 21e is provided with the drainage frame 21d, the drainage frame 21d and the straight groove 21e are in sliding fit, the rear end of the groove rod 21f is provided with the rear seat 21a, the rear seat 21a and the groove rod 21f are fixedly connected, two limiting rods 21b are parallelly and equidistantly disposed on two sides of the groove rod 21f, the limiting rods 21b are fixed on the drainage frame 21d and are in sliding fit with the rear seat 21a, the rear end of the drainage frame 21d is parallelly and equidistantly provided with two springs 21c, the front end and the rear end of the spring 21c are fixed on the drainage frame 21d and the rear seat 21 a.

Referring to fig. 4, the drainage frame 21d includes a connecting slider 21d1, a side plate 21d2, a movable filter plate 21d3, a connecting canvas 21d4, and a movable partition plate 21d5, the connecting slider 21d1 is disposed on a straight slot 21e and is in sliding fit with a slot rod 21f through the straight slot 21e, the connecting slider 21d1 is provided with side plates 21d2 on both sides, the side plate 21d2 is fixedly connected with a connecting slider 21d1, the movable filter plate 21d3 is disposed at the bottom of the side plate 21d2, the movable filter plate 21d3 and the side plate 21d2 are in sliding fit, the movable partition plate 21d5 is disposed below the connecting slider 21d1, the movable partition plate 21d5 is disposed at the bottom of the slot rod 21f and is in sliding fit with the slot rod 21d4, the movable partition plate 21d 465 is connected with the movable partition plate 21d5 through the connecting canvas 21d 57323, the two side plates 21d2 are arranged in an axisymmetric structure and are arranged on two sides of the connecting slide block 21d1 in a splayed structure.

Referring to fig. 5, the lifting water filtering mechanism 22 includes a ring groove 22a, a top plate 22b, a circular truncated cone 22c, a filtrate ring plate 22d, a flow guide ring 22e, and a filtrate lifting cover 22f, the top plate 22b is disposed on the top of the filtrate lifting cover 22f, the top plate 22b is fixedly connected to the filtrate lifting cover 22f, the top plate 22b is of a circular structure, the ring groove 22a is disposed on the outer ring, the ring groove 22a and the top plate 22b are of an integrated structure, the cross section of the ring groove 22a is of a concave structure with the center being disposed, and the two sides thereof are turned outwards, the filtrate ring plate 22d is disposed on the outer ring of the filtrate lifting cover 22f, the filtrate ring plate 22d and the filtrate lifting cover 22f are in sliding fit, the filtrate ring plate 22d is disposed on the top of the flow guide frame 23 and fixedly connected to the two, the flow guide ring 22e is disposed at the bottom of the filtrate ring plate 22d, and the flow guide ring, the diversion ring 22e is of a circular truncated cone-shaped structure, the center of the diversion ring is circularly hollowed out, a circular truncated cone 22c is arranged at the top of the top plate 22b, and the circular truncated cone 22c is fixedly connected with the top plate 22 b.

Referring to fig. 6, the filtrate lifting cover 22f includes a filtrate circular cover 22f1, a diversion bottom ring 22f2, a buoyancy ring 22f3 and a water outlet 22f4, the filtrate circular cover 22f1 is disposed at the bottom of the top plate 22b and fixedly connected with the top plate 22b, the filtrate circular cover 22f1 is of a hollow cylindrical structure and is in sliding fit with the filtrate ring plate 22d and the diversion ring 22e, the diversion bottom ring 22f2 is disposed at the bottom of the filtrate circular cover 22f1, the diversion bottom ring 22f2 is fixedly connected with the filtrate circular cover 22f1, the top of the diversion bottom ring 22f2 is of an inverted conical surface structure and is disposed at the bottom of the filtrate circular cover 22f1, the buoyancy ring 22f3 is disposed at the bottom of the diversion bottom ring 22f2, the buoyancy ring 22f3 is connected with the diversion bottom ring 22f2, the water outlet 22f4 is disposed at the center of the buoyancy ring 22f 356, and the filtrate circular cover 22f4 and the water outlet 1 are of an integrated structure, the circumference diameter formed by the buoyancy ring 22f3 is smaller than the circumference diameter of the guide ring 22e, the guide ring 22e is arranged in the guide liquid frame 23, and the formed circumference diameter is smaller than the circumference diameter of the guide liquid frame 23.

The specific realization principle is as follows:

the rainwater flow guiding structure 2 is vertically arranged on the concrete deep frame 3 and is positioned and installed through the fixed trough plate 1, the rainwater flow guiding structure 2 can make the lifting water filtering mechanism 22 rise by utilizing the buoyancy of water in rainy days to increase the water inflow and the water filtering area, meanwhile, the impurity collecting mechanism 21 can automatically change the movable position according to the flow direction, so that garbage and impurities flowing along with water are intercepted, thereby increasing the water inflow, because the filtrate annular plate 22d is arranged at the top of the flow guiding liquid frame 23, the flow guiding ring 22e is arranged below the filtrate annular plate 22d, the flow guiding ring 22e is in a circular truncated cone-shaped structure, the center of the flow guiding ring is circularly hollowed out, in rainy days, rainwater flows into the flow guiding liquid frame 23 through the filtrate annular plate 22d, bypasses the buoyancy ring 22f3 arranged at the bottom of the filtrate circular cover 22f1 under the guiding action of the flow guiding ring 22e, passes through the top of the flow guiding flat ring 25, and is sequentially discharged into the sewer 5 from the sewer 24 and the flow guiding straight pipe 4, because the flow guide flat ring 25 is arranged below the floating ring 22f3, the water quantity can determine the lifting height of the filtrate circular cover 22f1, the water inlet quantity and the water filtering area are increased, the municipal drainage pressure is reduced, because the section of the ring groove 22a is of a concave structure at the central position, two sides of the ring groove are turned outwards, one end of the groove rod 21f is horizontally arranged on the ring groove 22a, the two parts adopt sliding fit, the connecting slide block 21d1 is arranged on the straight groove 21e, the straight groove 21e and the groove rod 21f adopt sliding fit, the side plate 21d2 is provided with two parts in an axisymmetric structure and is arranged on two sides of the connecting slide block 21d1 in a splayed structure, the side plate 21d2 rises along with the lifting height of the filtrate circular cover 22f1, the movable filter plate 21d3 descends along with the rising of the side plate 21d2, the movable partition plate 21d5 descends along with the rising of the groove rod 21f, and the movable filter plate 21d3 and the movable partition plate 21d5 are always attached to the plane of, under the arrangement of the movable partition plate 21d5, the movable partition plate 21d5 is pushed to turn in the flowing direction in rainy days, so that the side plate 21d2 drives the movable filter plate 21d3 to change the direction, so that garbage and impurities flowing along with water are intercepted, under the structure that the rear seat 21a, the limiting rod 21b, the spring 21c, the straight groove 21e and the groove rod 21f are connected, and under the matching of the connecting sliding block 21d1, the two side plates 21d2 which are arranged in an axially symmetric structure can change the expansion size along with the flow of rainwater, so that the impact force of the rainwater on the structure is reduced, and the inflow flow of the rainwater is increased, thereby solving the problem that grids are usually arranged at low-lying positions of a small area and are connected with a municipal sewer, because the low-lying positions are more favorable for collecting the rainwater, and the rainwater can carry impurities such as plastic bags and the like to be attached to the surface of the grids, so that the water flow flowing, reducing the drainage effect of the grating.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. The utility model provides a town road rainwater guiding device, its structure includes fixed frid (1), rainwater water conservancy diversion structure (2), concrete deep frame (3), water conservancy diversion straight tube (4), sewer (5), its characterized in that:

deep frame of concrete (3) inside be equipped with rainwater water conservancy diversion structure (2), deep frame of concrete (3) top be equipped with fixed frid (1), deep frame of concrete (3) bottom be equipped with water conservancy diversion straight tube (4), water conservancy diversion straight tube (4) install perpendicularly on deep frame of concrete (3) to be connected with rainwater water conservancy diversion structure (2), water conservancy diversion straight tube (4) bottom be equipped with sewer (5).

2. The municipal road rainwater flow guiding device according to claim 1, wherein: rainwater water conservancy diversion structure (2) including album miscellaneous mechanism (21), lift drainage mechanism (22), water conservancy diversion liquid frame (23), outlet (24), water conservancy diversion flat ring (25), water conservancy diversion liquid frame (23) central point put and be equipped with lift drainage mechanism (22), lift drainage mechanism (22) on be equipped with and collect miscellaneous mechanism (21), lift drainage mechanism (22) below be equipped with water conservancy diversion flat ring (25), water conservancy diversion liquid frame (23) bottom be equipped with outlet (24).

3. The municipal road rainwater flow guiding device according to claim 2, wherein: collect miscellaneous mechanism (21) including back seat (21a), gag lever post (21b), spring (21c), drainage frame (21d), straight flute (21e), channel bar (21f) on be equipped with straight flute (21e), straight flute (21e) on be equipped with drainage frame (21d), channel bar (21f) rear end be equipped with back seat (21a), channel bar (21f) both sides all be equipped with gag lever post (21b), drainage frame (21d) rear end be equipped with spring (21 c).

4. The municipal road rainwater flow guiding device according to claim 3, wherein: drainage frame (21d) including link block (21d1), curb plate (21d2), activity filter plate (21d3), connection canvas (21d4), activity baffle (21d5), link block (21d1) both sides all be equipped with curb plate (21d2), curb plate (21d2) bottom be equipped with activity filter plate (21d3), link block (21d1) below be equipped with activity baffle (21d5), activity baffle (21d5) both sides all be equipped with and connect canvas (21d 4).

5. The municipal road rainwater flow guiding device according to claim 2, wherein: lift drainage mechanism (22) including annular (22a), roof (22b), round platform (22c), filtrating crown plate (22d), water conservancy diversion ring (22e), filtrating lift cover (22f) top be equipped with roof (22b), roof (22b) outer lane on be equipped with annular (22a), filtrating lift cover (22f) outer lane on be equipped with filtrating crown plate (22d), filtrating crown plate (22d) bottom be equipped with water conservancy diversion ring (22e), roof (22b) top be equipped with round platform (22 c).

6. The municipal road rainwater flow guiding device according to claim 5, wherein: filtrate lift cover (22f) including filtrate circle cover (22f1), water conservancy diversion end ring (22f2), buoyancy ring (22f3), delivery port (22f4), filtrate circle cover (22f1) bottom be equipped with water conservancy diversion end ring (22f2), water conservancy diversion end ring (22f2) bottom be equipped with buoyancy ring (22f3), buoyancy ring (22f3) central point put and be equipped with delivery port (22f 4).

7. The municipal road rainwater flow guiding device according to claim 3, wherein: one end of the groove rod (21f) is horizontally arranged on the ring groove (22a) and is in sliding fit with the ring groove, and the connecting sliding block (21d1) is arranged on the straight groove (21e) and is in sliding fit with the groove rod (21f) through the straight groove (21 e).

8. The municipal road rainwater flow guiding device according to claim 6, wherein: the circumference diameter formed by the buoyancy ring (22f3) is smaller than that of the guide ring (22e), the guide ring (22e) is arranged in the guide liquid frame (23), and the circumference diameter formed by the guide ring is smaller than that of the guide liquid frame (23).

Images