CN113062427B

CN113062427B - Rainwater diversion treatment device

Info

Publication number: CN113062427B
Application number: CN202110373721.7A
Authority: CN
Inventors: 李金平
Original assignee: Nanjing Blue Collar New Material Technology Co ltd
Current assignee: Nanjing Blue Collar New Material Technology Co ltd
Priority date: 2021-04-07
Filing date: 2021-04-07
Publication date: 2023-05-23
Anticipated expiration: 2041-04-07
Also published as: CN113062427A

Abstract

The utility model discloses a rainwater diversion treatment device, which comprises a device shell, a bottom plate and a top plate, wherein limiting sliding grooves are concavely formed in two sides of the inner wall of the device shell, a mud scraping assembly is slidably arranged in the limiting sliding grooves, and the top of the mud scraping assembly is connected with a power mechanism for driving the mud scraping assembly to move along the limiting sliding grooves; one side of the power mechanism is connected with the waterproof motor, the other side of the power mechanism is connected with the transmission assembly, the transmission assembly drives the screw shaft with the helical blade to rotate, the screw shaft which is positioned in the mud collecting groove concavely arranged at one side of the bottom plate is rotatably arranged on the device shell, and one end of the mud collecting groove is provided with a sewage outlet which is arranged on the device shell; the top of the other side of the bottom plate is provided with a filter plate extending upwards, a water inlet is arranged on the device shell on one side of the mud scraping component, and a drain pipe is arranged on the device shell on the other side.

Description

Rainwater diversion treatment device

Technical Field

The utility model relates to the technical field of purifying and decontaminating rainwater, in particular to a rainwater diversion device convenient for collecting bottom mud.

Background

The utility model discloses a rain and sewage diversion device of China authority with the publication number of CN212200663U, which mainly comprises a sewage disposal bin, a collecting bin, a pusher, a diversion plate, a rain sensor, a push rod chute and a pulley bracket, wherein the pusher divides the rain and sewage diversion device into the collecting bin and the sewage disposal bin, the bottom of the collecting bin is separated from the upper part of the collecting bin by the pusher, the top of the rain and sewage diversion device is provided with a water inlet and an overhaul port, the overhaul port is provided with an overhaul cover, the bottom of the collecting bin is provided with a water outlet, and the bottom of the sewage disposal bin is provided with a sewage disposal port; the pusher comprises a pusher fixing seat, a pushing motor, a pushing ejector rod, an ejector rod movable shaft and an ejector rod pulley. The rainwater and domestic sewage separating device is used for separating rainwater from domestic sewage, solves the problem of rainwater and sewage mixed emission, and is mainly used for separating the rainwater from the domestic sewage by being arranged on a drainage pipeline of a roof in a functional mode, wherein the rainwater and sewage separating device is in a pollution discharge state when no rainfall occurs, and the rainwater and sewage separating device is in a collecting state when no rainfall occurs. It carries out effectual reposition of redundant personnel to rainwater and sewage through two kinds of mode.

However, in the rainwater collection, the content of impurities, sludge and the like in the initial rainwater is large, and how to separate and remove the impurities, sludge and the like in the rainwater is a difficult problem. This problem has not been solved in the prior art.

Disclosure of Invention

The utility model aims to provide a rainwater diversion device which can effectively separate and remove impurities and the like in rainwater and rapidly discharge sludge so as to prevent blockage.

In order to achieve the above purpose, the present utility model provides the following technical solutions: rainwater reposition of redundant personnel processing apparatus, including device casing 1, bottom plate 12, roof 13, its characterized in that: limiting sliding grooves 11 are concavely formed in two sides of the inner wall of the device shell 1, a mud scraping assembly 7 is slidably installed in the limiting sliding grooves 11, the top of the mud scraping assembly 7 is connected with a power mechanism 9 which drives the mud scraping assembly 7 to move along the limiting sliding grooves 11, and the power mechanism 9 is installed on a top plate 13;

one side of the power mechanism 9 is connected with the waterproof motor 8, the other side of the power mechanism is connected with the transmission assembly 10, the transmission assembly 10 is connected with the screw shaft 5 with the helical blade to drive the screw shaft 5 to rotate, the screw shaft 5 in the mud collecting groove 14 is rotatably arranged on the device shell 1, the mud collecting groove 14 is concavely arranged on one side of the bottom plate 12, and one end of the mud collecting groove 14 is provided with a sewage outlet 4 which is arranged on the device shell 1;

the top of the other side of the bottom plate 12 is fixedly provided with a filter plate 6 extending upwards, a water inlet 2 is arranged on the device shell 1 which is separated by the filter plate 6 and provided with one side of the mud scraping assembly 7, and a water drain pipe 3 is arranged on the device shell 1 on the other side without the mud scraping assembly 7.

In the rainwater diversion treatment device convenient for collecting the bottom mud, the bottom plate 12 is a 10-30-degree inclined plane, the mud collecting groove 14 is a semicircular groove, and the axis of the limiting chute 11 is parallel to the bottom plate 12.

The above-mentioned rainwater diversion processing apparatus convenient for collect bottom mud, the mud scraping subassembly 7 includes the movable rod 73, the both ends of movable rod 73 slide and set up in spacing spout 11, the coaxial rotation overcoat of movable rod 73 has the rotation sleeve 71, the inner wall fixedly connected with one end of torsional spring 74 of rotation sleeve 71, the other end fixed mounting of torsional spring 74 is on movable rod 73, the outer wall indent of movable rod 73 is equipped with the spacing groove 75 that extends at movable rod 73 circumference; the limiting part 76 is fixedly arranged on the inner wall of the rotating sleeve 71 and extends into the limiting groove 75, the outer wall of the rotating sleeve 71 is fixedly provided with the scraping plate 72, and the end part of the scraping plate 72 far away from the rotating sleeve 71 extends to the upper part of the bottom plate 12; when the movable rod and the scraping plate move towards the direction close to the mud collecting groove, the torsion spring enables the rotary sleeve to rotate to the limit part to be in contact with the inner wall of one side of the limit groove, at the moment, the rotary sleeve cannot continuously rotate, the scraping plate basically contacts with the bottom plate, and the movable scraping plate scrapes the mud on the bottom plate; when the movable rod and the scraping plate move towards the direction far away from the mud collecting groove, the rotating sleeve overcomes the torsion of the torsion spring to rotate, the limiting part is separated from the inner wall of one side of the limiting groove, and the movable scraping plate slides over the bottom plate.

The rainwater diversion processing device convenient for collecting the bottom mud is characterized in that a plurality of filtering holes are formed in the scraping plate 72 in a penetrating mode.

In the rainwater diversion treatment device convenient for collecting the bottom mud, the power mechanism 9 comprises a rotating shaft 92, one end part of the rotating shaft 92 is coaxially provided with the waterproof motor 8, the other end of the rotating shaft is coaxially and fixedly provided with a transmission shaft 99, and the transmission shaft 99 is in meshed connection with the transmission assembly 10; the fixed cylinder 91 is sleeved outside the rotating shaft 92 in a coaxial rotating manner, the top of the fixed cylinder 91 is fixedly arranged on the inner wall of the top plate 13, a through sliding groove 94 is formed in the bottom of the fixed cylinder 91 in a penetrating manner, a sliding block 95 is arranged in the sliding groove 94 in a sliding manner, one end of the sliding block 95 is arranged in an arc-shaped annular groove 98 in a sliding manner, the arc-shaped annular groove 98 is concavely arranged on the rotating shaft 92, a fixed portion 96 is fixedly arranged at the other end of the sliding block 95, a telescopic portion 97 which can move up and down relative to the fixed portion is arranged in the sliding manner in the fixed portion 96, and the end portion of the telescopic portion 97, far away from the fixed portion 96, is fixedly arranged on the mud scraping assembly 7.

The transmission assembly 10 of the rainwater diversion processing device convenient for collecting the bottom mud comprises a rotating shaft 101, wherein the rotating shaft 101 is rotatably arranged on the inner walls of two sides of the device shell 1, and the rotating shaft 101 is connected with a transmission shaft 99 through a gear transmission mechanism; one side of the rotating shaft 101 is connected with a chain 103 through a chain wheel, the chain 103 is connected with a flywheel 104, and the flywheel 104 is connected with the screw shaft 5; the flywheel 104 is rotatable synchronously with the screw shaft 5 in one direction and rotatable relative to the screw shaft 5 in the opposite direction.

Compared with the prior art, the utility model has the beneficial effects that: the inclined bottom plate can be used for precipitating impurities and sludge in rainwater discharged from the water inlet, especially in early-stage rainwater, and meanwhile, the filter plate is matched for filtering the sludge and other impurities in the rainwater, and the filtered rainwater is discharged through the drain pipe; the mud scraping assembly can scrape the precipitated mud, the power mechanism drives the mud scraping assembly to reciprocate, meanwhile, the torsion spring is matched with the limiting part to ensure that the mud scraping plate is always in friction contact with the bottom plate, and meanwhile, the torsion spring is also vertical to the bottom plate, so that the precipitated mud on the bottom plate can be effectively collected, and the collected mud is driven to a sewage outlet to be discharged through the rotation of the screw shaft with the screw blade, thereby facilitating the collection of the bottom mud; meanwhile, the power source is provided for a waterproof motor, so that energy is saved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a front cross-sectional view of the present utility model;

FIG. 3 is a schematic view of a mud scraping assembly according to the present utility model;

FIG. 4 is a cross-sectional view of a power mechanism of the present utility model;

FIG. 5 is a schematic view of a scraper, a travel bar, a rotating sleeve, etc. as the scraper moves toward the mud accumulation groove;

fig. 6 is a schematic view of the scraper, the moving rod, the rotating sleeve, etc. as the scraper moves toward the filter plate.

In the figure: device casing 1, limit chute 11, bottom plate 12, roof 13, gather mud groove 14, water inlet 2, drain pipe 3, drain 4, screw shaft 5, filter 6, scrape mud subassembly 7, rotation sleeve 71, scraper 72, movable rod 73, torsional spring 74, limit groove 75, limit groove side inner wall 751, limit portion 76, waterproof motor 8, power unit 9, fixed section 91, pivot 92, connecting portion 93, run-through chute 94, sliding block 95, fixed portion 96, telescoping portion 97, arc annular 98, transmission shaft (worm) 99, transmission subassembly 10, rotation shaft 101, cone worm wheel 102, chain 103, flywheel 104.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the present utility model provides a technical solution: the utility model provides a rainwater reposition of redundant personnel processing apparatus convenient to collect bed mud, includes device casing 1, bottom plate 12, roof 13, and bottom plate 12 is 15 inclined planes, and the inner wall both sides indent of device casing 1 is equipped with spacing spout 11, and the axis and the bottom plate 12 of spacing spout 11 are parallel.

As shown in fig. 2, a filter plate 6 is fixedly arranged at the top of the other side of the bottom plate 12, the filter plate 6 can filter rainwater discharged from the water inlet 2, and a drain pipe 3 is fixedly arranged at one side of the filter plate 6 away from the mud scraping assembly 7; the upper section of one side of the device shell 1 is fixedly provided with a water inlet 2.

As shown in fig. 1 and 3, the mud scraping assembly 7 is slidably mounted in the limiting chute 11, the mud scraping assembly 7 comprises a moving rod 73, two side end parts of the moving rod 73 are slidably connected in the limiting chute 11, the moving rod 73 coaxially rotates and is sleeved with a rotating sleeve 71, one end of a torsion spring 74 is fixedly connected to the inner wall of the rotating sleeve 71, the other end of the torsion spring 74 is fixedly mounted on the moving rod 73, a limiting groove 75 is concavely formed in the outer wall of the moving rod 73, and a limiting part 76 extends into the limiting groove 75. The limiting portion 76 is fixedly mounted on the inner wall of the rotating sleeve 71, the scraper 72 is fixedly mounted on the outer wall of one side of the rotating sleeve 71, and the end portion, away from the rotating sleeve 71, of the scraper 72 extends to above the bottom plate 12. The scraper 72 is provided with a plurality of filtering holes. Scraper 72 may scrape the sludge from bottom 12 while the through holes in scraper 72 allow the smooth passage of rainwater. The torsion spring 74 makes the rotating sleeve 71 rotate anticlockwise relative to the moving rod 73, so that the limiting part 76 can keep contact with the inner wall 751 at one side of the limiting groove 75, the scraping plate 72 is ensured to be basically vertical to the bottom plate 12 and is always clung to the bottom plate 12, and the scraping effect is ensured.

As shown in fig. 1 and 4, a power mechanism 9 is fixedly arranged at the top of one end of the mud scraping assembly 7, and the power mechanism 9 is fixedly arranged on a top plate 13; the power mechanism 9 comprises a rotating shaft 92, a waterproof motor 8 is coaxially and rotatably arranged at one side end part of the rotating shaft 92, a transmission shaft (worm) 99 is coaxially and fixedly arranged at the other side of the rotating shaft 92, the worm 99 is meshed with the transmission assembly 10, a fixed cylinder 91 is sleeved outside the coaxial rotating shaft 92, a connecting part 93 is fixedly arranged at the top of the fixed cylinder 91, the connecting part 93 is fixedly arranged on the inner wall of the top plate 13, a penetrating sliding groove 94 is penetrated through the bottom of the fixed cylinder 91, a sliding block 95 is slidably arranged in the penetrating sliding groove 94, one end of the sliding block 95 is slidably clamped in an arc-shaped annular groove 98, the arc-shaped annular groove 98 is concavely arranged on the rotating shaft 92, a fixing part 96 is fixedly arranged at the other end of the sliding block 95, a telescopic part 97 is slidably arranged in the fixing part 96, and the telescopic part 97 is far away from the end part of the fixing part 96, which is fixedly arranged on the movable rod 73 in the mud scraping assembly 7. The waterproof motor 8 can provide power for the rotating shaft 92, the arc-shaped annular groove 98 on the rotating shaft 92 can drive the sliding block 95 to reciprocate, and the telescopic part 97 can be telescopic in the fixed part 96, so that the limit chute 11 can still drive the mud scraping assembly 7 to reciprocate after having an inclined angle; specifically, when the waterproof motor 8 rotates counterclockwise, the slide block 95, the moving lever 73, the scraper 72, etc. are driven to move in a direction approaching the screw shaft 5, and when the waterproof motor 8 rotates clockwise, the slide block 95, the moving lever 73, the scraper 72, etc. are driven to move in a direction departing from the screw shaft 5.

As shown in fig. 2, one side of the power mechanism 9 is rotatably provided with a waterproof motor 8, the other side is rotatably provided with a transmission assembly 10, the bottom of the transmission assembly 10 is rotatably connected with a screw shaft 5, the screw shaft 5 is rotatably arranged in a mud collecting groove 14, the mud collecting groove 14 is concavely arranged on one side of the bottom plate 12, the mud collecting groove 14 is a semicircular groove, one side of the mud collecting groove 14 is fixedly provided with a sewage outlet 4, and the clockwise rotating screw shaft 5 can drive sludge scraped into the mud collecting groove 14 to be discharged from the sewage outlet 4;

as shown in fig. 2, the transmission assembly 10 includes a rotation shaft 101, the rotation shaft 101 is rotatably mounted on inner walls of two sides of the device housing 1, the rotation shaft 101 is coaxially fixed with a tapered worm wheel 102, the tapered worm wheel 102 is engaged with a connection worm 99, the tapered worm wheel 102 is a curved tooth tapered worm wheel, one side of the rotation shaft 101 is connected with a chain 103 through a sprocket wheel provided on the rotation shaft 101, and one end of the chain 103 is connected with the screw shaft 5 through a flywheel 104 provided on the screw shaft 5. The freewheel 104 is identical in structure to the freewheel in a bicycle, and belongs to the prior art. The flywheel 104 has teeth on its outer periphery that engage the chain. The flywheel 104 is rotatable in a counterclockwise direction with respect to the screw shaft 5, and is rotatable only in synchronization with the screw shaft 5 in a clockwise direction. Therefore, when the chain 103 drives the flywheel 104 to rotate counterclockwise, power is not transmitted from the flywheel to the screw shaft 5, and the screw shaft 5 does not rotate. However, when the chain 103 drives the flywheel to rotate clockwise, power is transmitted from the flywheel to the screw shaft 5, and at the moment, the screw shaft rotates clockwise, and the screw blades on the screw shaft discharge the sludge in the sludge collecting groove 14 from the sewage outlet 4.

The transmission component 10 is matched with the power mechanism 9 to drive the screw shaft 5 to work, so that energy sources are saved.

Moreover, by the arrangement of the transmission assembly 10, when the scraper 72 and the like move towards the direction approaching to the screw shaft 5, the screw shaft 5 does not rotate, so that the sludge scraped by the scraper can enter the sludge collecting groove 14 more; when the scraper 72 or the like is moved in a direction away from the screw shaft 5, the screw shaft 5 is rotated (rotated clockwise) in a direction to discharge the sludge toward the sewage outlet 4, so that the sludge in the sludge collection tank 14 can be pushed toward the sewage outlet 4 as much as possible.

Working principle: when the utility model is used, the water inlet 2 is used for discharging rainwater, impurities such as soil in the water are filtered by the filter plate 6 and deposited on the bottom plate 12 close to the filter plate 6, the waterproof motor 8 is started to drive the rotating shaft 92 to rotate, and the rotating shaft 92 drives the sliding block 95 to reciprocate through the sliding groove 94 through the arc-shaped annular groove 98 when rotating, so that the telescopic part 97 is driven to reciprocate, the telescopic part 97 drives the mud scraping assembly 7 to reciprocate along the limiting sliding groove 11, and the scraping plate 72 scrapes and moves the mud on the bottom plate 12.

Specifically, when the waterproof motor 8 rotates anticlockwise, the moving rod 73 and the scraping plate 72 move towards the direction approaching to the mud collecting groove 14, the torsion spring 74 enables the rotating sleeve 71 to rotate anticlockwise until the inner wall 751 at one side of the limiting groove 75 contacts with the limiting part 76, at the moment, the rotating sleeve 71 cannot swing anticlockwise, so that when the scraping plate 72 scrapes and moves mud, the scraping plate 72 is always vertical to the bottom plate 12, and the mud at the top of the bottom plate 12 is completely scraped and removed; simultaneously, through the counterclockwise rotation of the worm 99, the bevel gear 102 and the rotation shaft 101 rotate counterclockwise, the chain 103 rotates counterclockwise, the flywheel 104 rotates counterclockwise, and the screw shaft 5 remains stationary. When the waterproof motor 8 rotates clockwise and the moving rod 73 and the scraping plate 72 are driven by the power mechanism 9 to move towards the direction approaching the filter plate 6, the bottom end of the scraping plate 72 is in friction contact with the bottom plate 12 or the top of the newly deposited sludge, the bottom end of the scraping plate 72 slides on the bottom plate 12 or the upper part of the top of the newly deposited sludge, the scraping plate 72 and the rotating sleeve 71 rotate clockwise against the acting force of the torsion spring 74, the limiting part 76 is not contacted with the inner wall 751 at one side of the limiting groove 75 any more until the moving rod 73 moves to a position approaching the filter plate 6 and stops; simultaneously, through the clockwise rotation of the worm 99, the bevel gear 102 and the rotating shaft 101 rotate clockwise, the chain 103 rotates clockwise, the flywheel 104 rotates clockwise, the screw shaft 5 is driven to rotate clockwise, and the sludge in the sludge collecting groove 14 is pushed out towards the sewage outlet 4.

When the moving rod 73 is stopped (the waterproof motor 8 stops rotating) at a position close to the filter plate 6, the rotating sleeve 71, the scraper 72 rotate relative to the moving rod 73 by the torsion of the torsion spring 74, and the stopper 76 comes into contact with the one side inner wall 751 of the stopper groove 75 again (or the stopper 76 approaches the one side inner wall 751 of the stopper groove 75).

Then, the waterproof motor 8 starts to rotate anticlockwise, when the power mechanism 9 provides power to drive the movable rod 73 and the scraping plate 72 to move towards the direction close to the mud collecting groove 14, the scraping plate 72 swings around the movable rod 73 under the action of the acting force of the mud and the torsion force of the torsion spring 74 until the limiting part 76 is contacted with the inner wall 751 on one side of the limiting groove 75 again, so that the scraping plate 72 is driven to contact the top of the bottom plate 12 again, the power mechanism 9 drives the scraping plate 72 to scrape the mud on the bottom plate 12 again, and the scraped mud enters the mud collecting groove 14; at the same time, the screw shaft 5 remains stationary (see above). Then, the waterproof motor 8 rotates clockwise to drive the moving rod 73 and the like to move in a direction approaching the filter plate 6 (see the above), and the screw shaft 5 rotates clockwise under the drive of the transmission assembly 10, so that the sludge in the sludge collecting tank 14 is pushed to the sewage outlet 4 to be discharged.

Of course, the rotation shaft 101 may be connected to the transmission shaft 99 by another gear mechanism. For example, a drive bevel gear is fixed to the drive shaft 99, and a driven bevel gear is fixed to the rotation shaft 101, and the drive bevel gear is meshed with the driven bevel gear. In this case, the drive shaft need not be the worm described above, nor the worm wheel 102 described above.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims

1. Rainwater reposition of redundant personnel processing apparatus, including device casing (1), bottom plate (12), roof (13), its characterized in that: limiting sliding grooves (11) are concavely formed in two sides of the inner wall of the device shell (1), a mud scraping assembly (7) is slidably installed in the limiting sliding grooves (11), the top of the mud scraping assembly (7) is connected with a power mechanism (9) for driving the mud scraping assembly (7) to move along the limiting sliding grooves (11), and the power mechanism (9) is installed on a top plate (13);

one side of the power mechanism (9) is connected with the waterproof motor (8), the other side of the power mechanism is connected with the transmission assembly (10), the transmission assembly (10) is connected with the screw shaft (5) with the helical blade to drive the screw shaft (5) to rotate, the screw shaft (5) in the mud collecting groove (14) is rotatably arranged on the device shell (1), the mud collecting groove (14) is concavely arranged on one side of the bottom plate (12), and one end of the mud collecting groove (14) is provided with a sewage outlet (4) which is arranged on the device shell (1);

the top of the other side of the bottom plate (12) is fixedly provided with a filter plate (6) extending upwards, a water inlet (2) is formed in a device shell (1) which is separated by the filter plate (6) and is provided with one side of a mud scraping assembly (7), and a drain pipe (3) is formed in the device shell (1) at the other side without the mud scraping assembly (7); the bottom plate (12) is an inclined plane with the angle of 10-30 degrees;

the mud scraping assembly (7) comprises a moving rod (73), two end parts of the moving rod (73) are slidably arranged in a limiting chute (11), a rotating sleeve (71) is sleeved outside the moving rod (73) in a coaxial rotating mode, one end of a torsion spring (74) is fixedly connected to the inner wall of the rotating sleeve (71), the other end of the torsion spring (74) is fixedly arranged on the moving rod (73), and a limiting groove (75) extending in the circumferential direction of the moving rod (73) is concavely formed in the outer wall of the moving rod (73); the limiting part (76) is fixedly arranged on the inner wall of the rotating sleeve (71) and extends into the limiting groove (75), a scraper blade (72) is fixedly arranged on the outer wall of the rotating sleeve (71), and the end part, far away from the rotating sleeve (71), of the scraper blade (72) extends to the upper part of the bottom plate (12); when the movable rod and the scraping plate move towards the direction close to the mud collecting groove, the torsion spring enables the rotary sleeve to rotate to the limit part to be in contact with the inner wall of one side of the limit groove, at the moment, the rotary sleeve cannot continuously rotate, the scraping plate basically contacts with the bottom plate, and the movable scraping plate scrapes the mud on the bottom plate; when the movable rod and the scraping plate move towards the direction far away from the mud collecting groove, the rotating sleeve overcomes the torsion of the torsion spring to rotate, the limiting part is separated from the inner wall of one side of the limiting groove, and the movable scraping plate slides over the bottom plate.

2. The rainwater diversion processing apparatus as claimed in claim 1, wherein: the mud gathering groove (14) is a semicircular groove, and the axis of the limiting chute (11) is parallel to the bottom plate (12).

3. The rainwater diversion processing apparatus as claimed in claim 1, wherein: a plurality of filtering holes are formed in the scraping plate (72) in a penetrating mode.

4. The rainwater diversion processing apparatus as claimed in claim 1, wherein: the power mechanism (9) comprises a rotating shaft (92), one end part of the rotating shaft (92) is coaxially provided with the waterproof motor (8), the other end of the rotating shaft is coaxially and fixedly provided with a transmission shaft (99), and the transmission shaft (99) is in meshed connection with the transmission assembly (10); the utility model discloses a mud scraping device, including fixed part (96) and mud scraping component (7), fixed part (96) are fixed on fixed part (96), fixed part (96) are fixed on fixed part, fixed part (96) are fixed on the fixed part, fixed part (96) are kept away from in the end fixed mounting of mud scraping component (7), fixed part (96) are fixed on the fixed part, and fixed part (95) are fixed on the fixed part, and the fixed part is fixed on the fixed part.

5. The rainwater diversion processing apparatus as claimed in claim 4, wherein: the transmission assembly (10) comprises a rotating shaft (101), the rotating shaft (101) is rotatably arranged on the inner walls of the two sides of the device shell (1), and the rotating shaft (101) is connected with the transmission shaft (99) through a gear transmission mechanism; one side of the rotating shaft (101) is connected with a chain (103) through a chain wheel, the chain (103) is connected with a flywheel (104), and the flywheel (104) is connected with the screw shaft (5); the flywheel (104) is rotatable synchronously with the screw shaft (5) in one direction and rotatable relative to the screw shaft (5) in the opposite direction.