CN112942543A - Rotatory automatically cleaning inlet for stom water of integral type - Google Patents

Abstract

The invention discloses an integrated rotary self-cleaning gutter inlet, which comprises: the rainwater cabin and the water quantity control and regulation chamber communicated with the rainwater cabin are provided with an opening at the top, a plurality of scrapers are arranged on the side surface of the opening, a plurality of rotatable rainwater grates are arranged in the opening, and all the scrapers and all the rainwater grates are arranged in a crossed and overlapped mode; the top of the water quantity control adjusting chamber is provided with a first rainwater port, a water quantity adjuster and a driving mechanism are arranged in the water quantity control adjusting chamber, and the driving mechanism is connected with all the rainwater grates; when the water quantity in the water quantity control adjusting chamber is higher than or equal to the preset water quantity, the water quantity adjuster drives the driving mechanism to operate so as to drive the rainwater grate to rotate. When the upper part of the rainwater grate is blocked by sundries, the water quantity in the water quantity adjusting chamber is increased, the water quantity adjuster is started to drive the driving mechanism to operate, the rainwater grate is driven to rotate, the scrapers can scrape the sundries on the rainwater grate, so that the rainwater can enter the rainwater cabin from the opening and the rainwater grate, and the opening is prevented from being blocked.

Description

Rotatory automatically cleaning inlet for stom water of integral type

Technical Field

The invention relates to the technical field of municipal road drainage, in particular to an integrated rotary self-cleaning gutter inlet.

Background

The rainwater grate is a common road surface drainage mechanism in municipal administration, and is widely applied to the aspects of drainage of fast, primary, secondary, branch, street and the like in cities. Because the rainwater grate is generally used for carrying out rainy day drainage on the town road, in urban fast main road, it is high to rainwater discharge requirement, and debris such as silt rubbish and branch are catched at the inlet for stom water position through the confluence of rainwater in the rainy day in the rainwater mixed. However, in the drainage process, the sundries mixed in the rainwater can easily block the rainwater grate, the drainage effect is affected, large-area water accumulation at the rainwater outlet is caused, the traffic is affected, the pavement surface layer is damaged under severe conditions, and the base layer is filled with water. Therefore, the drainage device needs to be dredged and cleared in time to meet the drainage requirement. And because the last wash port of grate is little, the degree of difficulty of clearing up out rubbish from it is big, need use professional instrument to clear up, has increased workman's intensity of labour like this, has increased the labour cost and has cleared up the degree of difficulty greatly in the rainy day, and current town road clearance measure falls behind, and some automatic cleaning device can only utilize the scraper blade to scrape the plug to both sides, and nevertheless under rivers scouring action, the plug still can block up the inlet for stom water again.

In summary, how to prevent the rainwater inlet from being blocked is a problem to be solved urgently by those skilled in the art at present.

Disclosure of Invention

In view of the above, the present invention provides an integrated rotary self-cleaning gully, which can automatically clean up the blockage on the gully grating and prevent the gully from being blocked.

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

an integrated rotary self-cleaning gutter inlet comprising: the rainwater cabin is communicated with a water quantity control and regulation chamber, the top of the rainwater cabin is provided with an opening, the side surface of the opening is provided with a plurality of scrapers, a plurality of rotatable rainwater grates are arranged in the opening, and all the scrapers and all the rainwater grates are arranged in a crossed and overlapped mode; the top of the water quantity control adjusting chamber is provided with a first rainwater port, a water quantity adjuster and a driving mechanism are arranged in the water quantity control adjusting chamber, and the driving mechanism is connected with all the rainwater grates; when the water quantity in the water quantity control adjusting chamber is higher than or equal to the preset water quantity, the water quantity adjuster drives the driving mechanism to operate so as to drive the rainwater grate to rotate.

Preferably, the water quantity control regulation chamber comprises a calculation water storage chamber and a water flow discharge chamber, the first rain inlet is arranged on the calculation water storage chamber, the water quantity regulator is respectively arranged in the calculation water storage chamber and the water flow discharge chamber, the driving mechanism is arranged in the water flow discharge chamber, and the water flow discharge chamber and the calculation water storage chamber are both communicated with the rainwater cabin;

when the water amount in the calculation water storage chamber is higher than or equal to the preset water amount, the water amount regulator extracts water in the calculation water storage chamber to drive the driving mechanism to operate so as to drive the rainwater grate to rotate.

Preferably, the water volume regulator is the siphon downspout, the lower extreme opening of siphon downspout set up in calculate in the reservoir chamber, the upper end opening of siphon downspout set up in the room is excreted to rivers, the upper end opening of siphon downspout is higher than the lower extreme opening of siphon downspout.

Preferably, the driving mechanism comprises a rotating wheel and a transmission member, the rotating wheel is rotatably arranged in the water flow discharging chamber, an opening at the upper end of the siphon rainwater pipe is over against one side of the rotating wheel, the rotating wheel is connected with the transmission member, and the transmission member is connected with all the rainwater grates.

Preferably, the calculation reservoir chamber with the baffle of rivers chamber of excreting sets up concave to calculate the arc wall of reservoir chamber, the runner is rotatable set up in the arc wall, one side protrusion of runner the arc wall, siphon downspout's upper end opening is just right the runner protrusion one side of arc wall.

Preferably, the bottom of the water flow drainage chamber is provided with a water passing slope which faces the rainwater cabin and inclines downwards, the side wall of the low slope surface of the water passing slope is provided with an opening, and the opening is communicated with the rainwater cabin through a drainage pipe.

Preferably, the transmission part comprises a rotating gear coaxially arranged with the rotating wheel, the rotating gear is meshed with a worm part of the rotating shaft, and a polished rod part of the rotating shaft penetrates through the axes of all the rainwater grates.

Preferably, the rainwater grate comprises an outer hexagonal grate frame, a sleeve shaft is arranged at the center of the grate frame, the sleeve shaft is connected with the grate frame through a supporting structure, and the light bar part penetrates through all the sleeve shafts.

Preferably, a fixed cross beam is arranged at one end, away from the worm part, of the polished rod part, fixing grooves are respectively formed in the inner walls of the two sides of the rainwater cabin, two ends of the fixed cross beam respectively extend into the two fixing grooves, and an elastic part is arranged between the lower portion of the fixed cross beam and the fixing grooves.

Preferably, the rainwater inlet is communicated with the rainwater cabin, all the scrapers are arranged at the second rainwater inlet side by side, and the second rainwater inlet is arranged at the upper part of one side of the opening.

When there is debris to block up on the upper portion of rainwater grate, the rainwater that should get into the rainwater cabin by opening and rainwater grate originally is few by opening and rainwater grate entering rainwater cabin, most rainwater gets into water flow control regulating chamber through the first inlet for stom water of one side, the water yield grow in the water flow regulating chamber, when the water yield in the water flow regulating chamber reachs the predetermined water yield, the water flow regulator starts, drive actuating mechanism function, thereby drive the rainwater grate and rotate to the one side that sets up the scraper, debris on the rainwater grate can be scraped to the scraper, open the opening, thereby make the rainwater can get into the rainwater cabin by opening and rainwater grate, thereby prevent the opening and block up.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a front sectional view of an integrated rotary self-cleaning gully provided by the present invention;

FIG. 2 is a top cross-sectional view of the integrated rotary self-cleaning gully provided by the present invention;

FIG. 3 is a side sectional view of an integrated rotary self-cleaning gully according to the present invention;

FIG. 4 is a schematic view of a T-shaped grate frame provided by the present invention;

fig. 5 is a schematic view of a v-shaped grate frame provided by the present invention.

In FIGS. 1-5:

1-rainwater grate, 2-rotating shaft, 3-scraper, 4-water inlet grid, 5-first rainwater inlet, 6-arc-shaped groove, 7-siphon rainwater pipe, 8-rotating gear, 9-water outlet pipe, 10-calculating water storage chamber, 11-rotating wheel, 12-drainage water pipe, 13-water passing slope, 14-water flow drainage chamber, 15-fixed beam, 16-fixed groove, 17-elastic part, 18-cross bar, 19-vertical bar, 20-sleeve shaft and 21-inclined bar.

Detailed Description

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

The core of the invention is to provide an integrated rotary self-cleaning rainwater inlet, which can automatically clean the blockage on a rainwater grate and prevent the rainwater inlet from being blocked.

Referring to fig. 1 to 5, an integrated rotary self-cleaning gutter inlet includes: the rainwater cabin and the water quantity control and regulation chamber communicated with the rainwater cabin, the top of the rainwater cabin is provided with an opening, the side surface of the opening is provided with a plurality of scrapers 3, a plurality of rotatable rainwater grates 1 are arranged in the opening, and all the scrapers 3 are arranged in a crossed and overlapped mode with all the rainwater grates 1; the top of the water quantity control and regulation chamber is provided with a first rainwater port 5, a water quantity regulator and a driving mechanism are arranged in the water quantity control and regulation chamber, and the driving mechanism is connected with all the rainwater grates 1; when the water quantity in the water quantity control adjusting chamber is higher than or equal to the preset water quantity, the water quantity adjuster drives the driving mechanism to operate so as to drive the rainwater grate 1 to rotate.

It should be noted that the inner wall of the rainwater cabin is arc-shaped, all the rainwater grates 1 are in a polygonal structure, the distance between adjacent rainwater grates 1 can be set to be 1-3cm, preferably, the distance between adjacent rainwater grates 1 is 2cm, the polygonal outer side faces the inner wall of the rainwater cabin, the top of the rainwater cabin is provided with an opening, and when the rainwater grates 1 bear loads of pedestrians or vehicles, the surface bearing the loads is a polygonal outer side plane.

All scrapers 3 are arranged side by side, the scrapers 3 are arranged between the adjacent rainwater grates 1, the scrapers 3 extend into the space between the two rainwater grates 1, and the extending length can be set to be 2 cm. The structure of the scraper 3 can be set according to practical application, the distance between the scraper 3 and the rainwater grates 1 at two sides can be set according to practical application, and preferably, the distance between the scraper 3 and the rainwater grates 1 at two sides is consistent.

All the rainwater grates 1 are rotatably arranged in the rainwater cabin, the rotating directions of all the rainwater grates 1 are towards one side of the scraper 3, and the integral type rotating self-cleaning rainwater inlet provided by the application is arranged on the inner side of the curb, so that the scraper 3 is arranged on one side of the curb in actual application, and the rainwater cabin and the opening are arranged on the inner side of the scraper 3.

The water quantity control regulating chamber is arranged on one side of the rainwater cabin, the first rainwater inlet 5 at the top is arranged on one side of an opening of the rainwater cabin, the first rainwater inlet 5 is arranged on one side of a curb, the rainwater cabin is communicated with the water quantity control regulating chamber, the rainwater cabin is communicated with a sewer, when no sundries are blocked on the rainwater grate 1, a part of rainwater enters the rainwater cabin from the opening and the rainwater grate 1, a part of rainwater enters the water quantity regulating chamber from the first rainwater inlet 5, and the rainwater in the water quantity regulating chamber enters the rainwater cabin to be discharged. In order to prevent the first gully 5 from being blocked, a water inlet grill 4 is provided outside the first gully 5.

When the upper part of the rainwater grate 1 is blocked by sundries, a small part of rainwater originally entering the rainwater cabin from the opening and the rainwater grate 1 enters the rainwater cabin from the opening and the rainwater grate 1, most of the rainwater enters the water quantity control adjusting chamber through the first rainwater port 5 on one side, the water quantity in the water quantity adjusting chamber is increased, when the water quantity in the water quantity adjusting chamber reaches the preset water quantity, the water quantity adjuster is started to drive the driving mechanism to operate, so that the rainwater grate 1 is driven to rotate towards one side provided with the scraper 3, the scrapers 3 can scrape the sundries on the rainwater grate 1, the opening is opened, so that the rainwater can enter the rainwater cabin from the opening and the rainwater grate 1, and the opening blockage is prevented.

On the basis of the above embodiment, as a further preferable mode, the water amount control regulation chamber comprises a calculation water storage chamber 10 and a water flow discharge chamber 14, the first rain inlet 5 is arranged on the calculation water storage chamber 10, the water amount regulators are respectively arranged in the calculation water storage chamber 10 and the water flow discharge chamber 14, the driving mechanism is arranged in the water flow discharge chamber 14, and the water flow discharge chamber 14 and the calculation water storage chamber 10 are both communicated with the rainwater cabin;

when the water amount in the calculation water storage chamber 10 is higher than or equal to the preset water amount, the water amount regulator extracts water in the calculation water storage chamber 10 to drive the driving mechanism to operate so as to drive the rainwater grate 1 to rotate.

It should be noted that, when the upper part of the rain grate 1 is blocked by sundries, a small part of the rain which originally enters the rain cabin from the opening and the rain grate 1, a large part of the rain enters the calculation water storage chamber 10 through the first rain inlet 5 on one side, and when the amount of water in the calculation water storage chamber 10 reaches the preset amount of water, the water amount regulator can automatically extract the water in the calculation water storage chamber 10 and discharge the water into the water flow discharging chamber 14 to drive the driving mechanism to operate, so as to drive the rain grate 1 to rotate.

In addition to the above embodiment, it is further preferable that the water amount regulator is a siphon rainwater pipe 7, a lower end opening of the siphon rainwater pipe 7 is provided in the calculation water storage chamber 10, an upper end opening of the siphon rainwater pipe 7 is provided in the water flow discharge chamber 14, and an upper end opening of the siphon rainwater pipe 7 is higher than a lower end opening of the siphon rainwater pipe 7.

It should be noted that siphon downspout 7 is U-shaped, upper end opening and lower extreme opening all set up downwards, the upper end opening is higher than lower extreme open-ended height, it sets up the through-hole to calculate on the wall between reservoir chamber 10 and the rivers chamber 14 of excreting, the upper end of siphon downspout 7 stretches into in rivers chamber 14 of excreting along the through-hole, the lower extreme open-ended height of siphon downspout 7 and the highly uniform of predetermineeing the water yield, when calculating the water yield in reservoir chamber 10 and being higher than the lower extreme opening of siphon downspout 7, siphon downspout 7 absorbs the water that calculates in reservoir chamber 10, and it excretes in the chamber 14 to go into the rivers side by side. The siphon rain pipe 7 has a simple structure, is convenient to process and install and has low cost.

On the basis of the above embodiment, as a further preferable mode, the driving mechanism includes a rotating wheel 11 and a transmission member, the rotating wheel 11 is rotatably disposed in the water flow discharging chamber 14, the upper end opening of the siphon rainwater pipe 7 faces one side of the rotating wheel 11, the rotating wheel 11 is connected with the transmission member, and the transmission member is connected with all the rainwater grates 1.

It should be noted that the rotating wheel 11 is an impeller, the opening at the upper end of the siphon rain pipe 7 faces downward to the wheel blade at one side of the rotating wheel 11, when the siphon rain pipe 7 drains water into the water flow drainage chamber 14, the power of the water drives the rotating wheel 11 to rotate, the rotating wheel 11 can drive the transmission part to rotate, and the transmission part drives all the rain grates 1 to rotate, so as to drive the sundries to the scraper 3. The driving mechanism provided by the embodiment is simple in structure and convenient to mount.

On the basis of the above embodiment, as a further preferable mode, the partition plate of the calculation water storage chamber 10 and the water flow discharge chamber 14 is provided with the arc-shaped groove 6 concave to the calculation water storage chamber 10, the runner 11 is rotatably arranged in the arc-shaped groove 6, one side of the runner 11 protrudes out of the arc-shaped groove 6, and the upper end opening of the siphon rain pipe 7 is opposite to one side of the protruding arc-shaped groove 6 of the runner 11.

It should be noted that, because the upper opening of the siphon rain pipe 7 is at a certain distance from the rotating wheel 11, water discharged from the siphon rain pipe 7 may hit the other side of the rotating wheel 11, so that both sides of the rotating wheel 11 are stressed, and the efficiency of power transmission is reduced. This embodiment is through setting up arc wall 6 on the baffle, sets up runner 11 in arc wall 6, makes one side protrusion arc wall 6 of runner 11, and the opposite side is in arc wall 6, and the opposite side of runner 11 can not be hit to exhaust water in the upper end opening of siphon downspout 7, has increased power transmission efficiency.

In addition to the above embodiment, it is further preferable that the bottom of the water drainage chamber 14 is provided with a water passing slope 13 which is inclined downward toward the rain water compartment, and the side wall of the low slope surface of the water passing slope 13 is provided with an opening which communicates with the rain water compartment through the drain pipe 12.

It should be noted that, because the bottom of the water flow discharging chamber 14 is provided with the water passing slope 13, the water flowing into the water flow discharging chamber 14 can flow downwards along the water passing slope 13 and enter the rainwater chamber along the opening, so that the water in the water flow discharging chamber 14 can be discharged conveniently, and the phenomenon that the rotation of the runner 11 is influenced due to the excessive water accumulated in the water flow discharging chamber 14 is prevented.

Preferably, the counting reservoir 10 is in communication with the rain compartment via outlet pipe 9 to prevent overflow due to excessive water in the counting reservoir 10.

In addition to the above embodiments, it is further preferable that the transmission member includes a rotary gear 8 coaxially disposed with the runner 11, the rotary gear 8 is engaged with the worm portion of the rotating shaft 2, and the polish rod portion of the rotating shaft 2 passes through the axial centers of all the rain water grates 1.

It should be noted that the external teeth of the rotating gear 8 are meshed with the worm part, the worm part is driven to rotate by the gear when rotating, so as to drive the polished rod part to rotate, the polished rod part is fixedly connected with all the rainwater grates 1, and the polished rod part and all the rainwater grates 1 rotate synchronously, so as to drive all the rainwater grates 1 to rotate towards the scraper 3. The transmission efficiency of the rotating gear 8 and the worm part is high, and the transmission is reliable.

On the basis of the above embodiment, as a further preferred, the rainwater grate 1 includes an outer hexagonal grate frame, a sleeve shaft 20 is arranged at the center of the grate frame, the sleeve shaft 20 is connected with the grate frame through a support structure, and the polished rod part passes through all the sleeve shafts 20.

It should be noted that the grate frame can be T-shaped or V-shaped in structure, the T-shaped rainwater grate 1 comprises a cross rod 18 and a vertical rod 19, one end of the vertical rod 19 is connected to the center of the cross rod 18, the other end of the vertical rod 19 is provided with a sleeve shaft 20, the hexagonal rainwater grate 1 is taken as an example and comprises six cross rods 18 and six vertical rods 19, one vertical rod 19 is correspondingly connected with one cross rod 18, the end parts of all the vertical rods 19 are connected with the sleeve shaft 20, the sleeve shaft 20 is installed on the polished rod part, and all the cross rods 18 are connected into a hexagonal structure.

The shape-setting grate frame comprises a cross bar 18 at the upper part and two inclined rods 21 at the lower part, the upper ends of the two inclined rods 21 are respectively connected to the two ends of the cross bar 18, the lower ends of the two inclined rods 21 are both connected with a sleeve shaft 20, and all the cross bars 18 are connected into a hexagonal structure.

The rainwater grate 1 with the two structures provided by the embodiment enables the integrated rotary self-cleaning rainwater inlet provided by the application to be applicable to different road sections, the grate frame with the T-shaped structure can be adopted on the secondary branch, and the grate frame with the structure can be adopted on the fast main road.

In addition to the above embodiment, as a further preferable mode, a fixing beam 15 is disposed at one end of the polish rod portion away from the worm portion, fixing grooves 16 are disposed on inner walls of both sides of the rainwater compartment, both ends of the fixing beam 15 extend into the two fixing grooves 16, and an elastic member 17 is disposed between a lower portion of the fixing beam 15 and the fixing grooves 16.

It should be noted that, when the rain grate 1 bears the load of the pedestrian or the vehicle, the surface bearing the load is a polygonal outer plane, and the elastic part 17 in the fixing groove 16 is compressed, so that the grate surface below the rain grate 1 contacts the inner wall of the rain cabin, and the hexagonal rain grate 1 and the inner wall of the rain cabin form self-locking, and further cannot rotate, and the pedestrian or the vehicle cannot be damaged.

On the basis of the above embodiment, as a further preferred, the rainwater collection device further includes a second rainwater inlet, the second rainwater inlet is communicated with the rainwater cabin, all the scrapers 3 are arranged at the second rainwater inlet side by side, and the second rainwater inlet is arranged at the upper part of one side of the opening.

It should be noted that the second rainwater inlet is obliquely arranged and is arranged on the side surface of the curb, the upper part of the second rainwater inlet is convex, the lower part of the second rainwater inlet is concave, rainwater can enter the rainwater cabin from the second rainwater inlet, and all the scrapers 3 are arranged side by side and extend into the space between the rainwater grates 1. Through setting up the second inlet for stom water, increased the area in outlet, strengthened drainage efficiency, be convenient for scraper 3's installation.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The integral rotary self-cleaning gutter inlet provided by the invention is described in detail above. The principles and embodiments of the present invention are explained herein using specific examples, which are presented only to assist in understanding the method and its core concepts. It should be noted that, for those skilled in the art, it is possible to make various improvements and modifications to the present invention without departing from the principle of the present invention, and those improvements and modifications also fall within the scope of the claims of the present invention.

Claims (10)

1. An integral rotary self-cleaning gutter inlet, comprising: the rainwater cabin and the water quantity control and regulation chamber communicated with the rainwater cabin are provided, the top of the rainwater cabin is provided with an opening, the side surface of the opening is provided with a plurality of scrapers (3), a plurality of rotatable rainwater grates (1) are arranged in the opening, and all the scrapers (3) and all the rainwater grates (1) are arranged in a crossed and overlapped mode; a first rainwater inlet (5) is formed in the top of the water quantity control adjusting chamber, a water quantity adjuster and a driving mechanism are arranged in the water quantity control adjusting chamber, and the driving mechanism is connected with all the rainwater grates (1); when the water quantity in the water quantity control adjusting chamber is higher than or equal to the preset water quantity, the water quantity adjuster drives the driving mechanism to operate so as to drive the rainwater grate (1) to rotate.

2. The integrated rotary self-cleaning gutter inlet according to claim 1, wherein the water control regulation chamber comprises a calculation water storage chamber (10) and a water flow discharge chamber (14), the first gutter inlet (5) is arranged on the calculation water storage chamber (10), the water quantity regulators are respectively arranged in the calculation water storage chamber (10) and the water flow discharge chamber (14), the driving mechanism is arranged in the water flow discharge chamber (14), and the water flow discharge chamber (14) and the calculation water storage chamber (10) are both communicated with the rainwater cabin;

when the water amount in the calculation water storage chamber (10) is higher than or equal to the preset water amount, the water amount regulator extracts water in the calculation water storage chamber (10) to drive the driving mechanism to operate so as to drive the rainwater grate (1) to rotate.

3. An integrated rotary self-cleaning gully according to claim 2, wherein the water volume regulator is a siphon gully (7), a lower opening of the siphon gully (7) being provided in the computing water storage chamber (10), an upper opening of the siphon gully (7) being provided in the water drainage chamber (14), an upper opening of the siphon gully (7) being higher than a lower opening of the siphon gully (7).

4. The integrated rotary self-cleaning gutter inlet according to claim 3, wherein the driving mechanism comprises a rotating wheel (11) and a driving member, the rotating wheel (11) is rotatably disposed in the water flow discharging chamber (14), the upper end opening of the siphon rainwater pipe (7) faces one side of the rotating wheel (11), the rotating wheel (11) is connected with the driving member, and the driving member is connected with all the rainwater grates (1).

5. An integrated rotary self-cleaning gutter inlet according to claim 4, characterized in that the partition of the calculating water storage chamber (10) and the water drainage chamber (14) is provided with an arc-shaped groove (6) concave to the calculating water storage chamber (10), the rotating wheel (11) is rotatably arranged in the arc-shaped groove (6), one side of the rotating wheel (11) protrudes out of the arc-shaped groove (6), and the upper end opening of the siphon rain pipe (7) is opposite to one side of the rotating wheel (11) protruding out of the arc-shaped groove (6).

6. An integrated rotary self-cleaning gutter inlet according to claim 5, characterized in that the bottom of the water drainage chamber (14) is provided with a water passing slope (13) which is inclined downwards towards the rain cabin, and the side wall of the low slope surface of the water passing slope (13) is provided with an opening which is communicated with the rain cabin through a drainage water pipe (12).

7. An integrated rotary self-cleaning gully according to claim 4, wherein the transmission member comprises a rotary gear (8) coaxially arranged with the runner (11), the rotary gear (8) is engaged with a worm part of a rotary shaft (2), and a polished rod part of the rotary shaft (2) passes through the axes of all the gully grates (1).

8. An integrated rotary self-cleaning gully according to claim 7, wherein the gully grating (1) comprises an outer hexagonal grating frame, a sleeve shaft (20) is arranged in the center of the grating frame, the sleeve shaft (20) is connected with the grating frame through a support structure, and the polished rod part penetrates through all the sleeve shafts (20).

9. An integrated rotary self-cleaning gutter inlet according to claim 8, wherein a fixing beam (15) is provided at one end of the polished rod part away from the worm part, fixing grooves (16) are provided on the inner walls of both sides of the rain cabin, both ends of the fixing beam (15) extend into the two fixing grooves (16), and an elastic member (17) is provided between the lower part of the fixing beam (15) and the fixing grooves (16).

10. An integrated rotary self-cleaning gully according to any one of claims 1 to 9, further comprising a second gully communicating with the rain chamber, all the scrapers (3) being arranged side by side at the second gully, the second gully being arranged at an upper side of the opening.

Images