CN216108404U - Wheel type water surface cleaner - Google Patents

Abstract

The utility model discloses a wheel type water surface cleaner, which comprises a floatable cleaner main body, a rotary hydraulic driving mechanism and a filtering mechanism, wherein the rotary hydraulic driving mechanism and the filtering mechanism are arranged on the cleaner main body; the cleaner main body is matched with a driving wheel with a rotating blade, and the rotary hydraulic driving mechanism drives the driving wheel to rotate; the filtering mechanism is used for filtering the water flow. The wheel type water surface cleaner can clean dirt floating on the water surface, effectively replaces manual fishing operation, and improves cleaning efficiency.

Description

Wheel type water surface cleaner

Technical Field

The utility model relates to the field of cleaning equipment, in particular to a wheel type water surface cleaner.

Background

For various kinds of dirt floating on the water surface, the dirt floating on the water surface needs to be cleaned because it causes serious pollution to the water quality and affects the beauty at the same time. However, at present, the dirt floating on the water surface is cleaned by adopting a manual salvage mode, the cleaning efficiency is low, and the danger is higher when cleaning personnel operate.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a wheel type water surface cleaner which can clean dirt floating on a water surface, effectively replace manual fishing operation and improve cleaning efficiency.

In order to achieve the above purpose, the solution of the utility model is:

a wheeled water surface cleaner comprises a floatable cleaner body, a rotary hydraulic driving mechanism and a filtering mechanism, wherein the rotary hydraulic driving mechanism and the filtering mechanism are mounted on the cleaner body; the cleaner main body is matched with a driving wheel with a rotating blade, and the rotary hydraulic driving mechanism drives the driving wheel to rotate; the filtering mechanism is used for filtering the water flow.

The rotary hydraulic driving mechanism comprises an impeller seat and a power impeller; the power impeller is rotatably arranged in the inner cavity of the impeller seat, and the power impeller is in transmission connection with the driving wheel to drive the driving wheel to rotate.

The power impeller is in transmission connection with the driving wheel through the timing reversing device.

The number of the driving wheels is two, and the two driving wheels can be respectively and rotatably arranged on two sides of the cleaner main body; the timing reversing device is provided with a transmission shaft which alternately performs positive rotation and reverse rotation, and two ends of the transmission shaft are respectively in transmission connection with the two driving wheels.

The two driving wheels and the transmission shaft are arranged in a synchronous rotating mode.

The cleaner main body is provided with a water passing chamber, a clear water outlet and two sewage inlets, the two sewage inlets are oppositely arranged, and the sewage inlets are positioned on the side of the cleaner main body; the filter mechanism comprises a filter screen arranged in a water passing cavity of the cleaner main body, and the filter screen divides the water passing cavity into a sewage cavity communicated with a sewage inlet and a clear water cavity communicated with a clear water outlet; the rotary hydraulic driving mechanism is arranged in a clean water chamber of the cleaner main body, and a clean water outlet is connected with a water outlet of an impeller seat of the rotary hydraulic driving mechanism so that the clean water outlet is communicated with the clean water chamber through an inner cavity of the impeller seat.

The two ends of the transmission shaft are divided into a first end and a second end, and the two driving wheels are divided into a first driving wheel and a second driving wheel; the first end of the transmission shaft is in transmission connection with the first driving wheel, the first driving wheel and the transmission shaft are arranged in a synchronous rotating mode, and the second end of the transmission shaft is connected with the second driving wheel through the one-way ratchet wheel device.

The one-way ratchet device comprises an outer ratchet and an outer stop piece; the outer ratchet wheel is in transmission connection with the second end of the transmission shaft and is synchronously rotated with the transmission shaft, and a plurality of outer ratchets are arranged on the periphery of the outer ratchet wheel; the outer stop piece is arranged on a second driving wheel in a swinging mode, the second driving wheel and the outer ratchet wheel are coaxially arranged, and the outer stop piece is in contact with the outer ratchet of the outer ratchet wheel and only allows the outer ratchet wheel to rotate in one direction relative to the second driving wheel.

The one-way ratchet device comprises an inner ratchet and an inner stop piece; the inner ratchet wheel is coaxially connected with the second driving wheel and synchronously rotates with the second driving wheel, and a plurality of inner ratchets are arranged on the inner periphery of the inner ratchet wheel; the inner stop piece is in transmission connection with the second end of the transmission shaft and is arranged in a manner of synchronous rotation with the transmission shaft, at least one elastic pawl is arranged on the outer wall of the inner stop piece, and the elastic pawl of the inner stop piece is in contact with the inner ratchet of the inner ratchet wheel and only allows the inner ratchet wheel to rotate in one direction relative to the inner stop piece.

The timing reversing device comprises a driving gear, a driven gear, a reversing cam, an idler wheel, a reversing swinging piece and a transmission gear; the driving gear, the driven gear, the reversing cam and the transmission gear are rotatably matched with the cleaner main body, the power impeller drives the driving gear and the reversing cam to rotate, the driving gear is meshed with the driven gear, the end face of the reversing cam is provided with a reversing cam groove, and the transmission gear is connected with the transmission shaft; the reversing swinging piece is matched with the cleaner body in a swinging mode and is in sliding connection with the reversing cam groove; the idler wheel is rotatably arranged on the reversing swinging piece and is meshed with the transmission gear; when the reversing cam rotates, the reversing swinging piece is driven to swing in a reciprocating mode to drive the idler wheel to swing in a reciprocating mode, so that the idler wheel is meshed with the driving gear and the driven gear alternately, and the transmission gear is controlled to rotate forwards and reversely alternately.

The cleaner main body is provided with a water passing chamber, a sewage inlet and a clean water outlet; the filter mechanism comprises a filter screen arranged in a water passing cavity of the cleaner main body, and the filter screen divides the water passing cavity into a sewage cavity communicated with a sewage inlet and a clear water cavity communicated with a clear water outlet; the rotary hydraulic driving mechanism is arranged in a clean water chamber of the cleaner main body, and a clean water outlet is connected with a water outlet of an impeller seat of the rotary hydraulic driving mechanism so that the clean water outlet is communicated with the clean water chamber through an inner cavity of the impeller seat.

The clear water outlet is positioned at the bottom of the cleaner main body.

The cleaner body comprises an upper cover with an opening at the lower side and a lower cover with an opening at the upper side; the upper cover and the lower cover are detachably connected, and the filter screen is clamped between the upper cover and the lower cover; the sewage inlet is arranged on the upper cover, and the clear water outlet is arranged on the lower cover.

The sewage cavity cooperates with the one-way valve plate used for opening and closing the sewage inlet, the one-way valve plate can be arranged in the sewage cavity in a swinging mode, and the one-way valve plate is movably abutted to the inner peripheral edge of the sewage inlet.

After the scheme is adopted, the utility model has the following advantages:

1. when the wheel type water surface cleaner is used, the cleaner main body floats on the water surface, the rotary hydraulic driving mechanism drives the driving wheels to rotate so as to drive the cleaner main body to move on the water surface, and the filtering mechanism filters water flow on the water surface to intercept and collect dirt on the water surface, so that the dirt floating on the water surface is cleaned; therefore, the wheel type water surface cleaner can effectively replace manual fishing operation, and improves the cleaning efficiency.

2. The rotary hydraulic driving mechanism is driven by flowing water flow, so that the utility model does not need to consider the waterproof treatment of electronic devices, and the structure and the cost of the utility model are simplified.

3. The wheel type water surface cleaner can realize direction-changing movement, thereby being beneficial to cleaning dirt floating on the water surface.

Drawings

FIG. 1 is an exploded view of the present invention;

FIG. 2 is a schematic structural view of the present invention;

FIG. 3 is an assembled cross-sectional view of the present invention;

FIG. 4 is a partial block diagram of the present invention in FIG. 1;

FIG. 5 is a partial block diagram of the present invention shown in FIG. 2;

FIG. 6 is a partial cross-sectional view of the present invention 1;

FIG. 7 is a partial cross-sectional view of the present invention 2;

FIG. 8 is a partial cross-sectional view of the present invention 3;

FIG. 9 is a partially exploded view of the timing reversing device of the present invention;

FIG. 10 is an exploded view of the one-way ratchet device of the present invention;

description of reference numerals:

a cleaner body 1, a water passing chamber 10, a sewage chamber 101, a clean water chamber 102, an upper cover 11, a sewage inlet 111, a connecting part 112, a lower cover 12, a clean water outlet 121, a connecting piece 13, a one-way valve sheet 14,

the filter mechanism 2, the filter screen 21,

the rotary hydraulic driving mechanism 3, an impeller seat 31, a water inlet 311, a water outlet 312, a power impeller 32, a power shaft 321, a timing reversing device 33, a transmission shaft 331, a driving gear 332, a driven gear 333, a reversing cam 334, a reversing cam groove 3341, an idler gear 335, a reversing swinging piece 336, a transmission gear 337, a fixed bracket 338, an arc-shaped guide hole 3381,

the driving wheel 4, the rotary vane 401, the first driving wheel 41, the second driving wheel 42,

the one-way ratchet device 5, an outer ratchet 51, an outer ratchet 511, an outer stop 52, an inner ratchet 53, an inner ratchet 531, an inner stop 54 and an elastic pawl 541.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following specific examples.

As shown in fig. 1 to 10, the present invention discloses a wheeled water surface cleaner, which comprises a floatable cleaner body 1, and a filter mechanism 2 and a driving mechanism mounted to the cleaner body; wherein the driving mechanism is used for driving the cleaner body 1 to move on the water surface; the filtering mechanism 2 is used for filtering water flow.

When the wheel type water surface cleaner is used, the cleaner main body 1 floats on the water surface, the driving mechanism drives the cleaner main body 1 to move on the water surface, and the filtering mechanism 2 filters water flow on the water surface to intercept and collect dirt on the water surface, so that the dirt floating on the water surface is cleaned; therefore, the wheel type water surface cleaner can effectively replace manual fishing operation, and improves the cleaning efficiency.

In the present invention, the driving mechanism is a rotary hydraulic driving mechanism 3 to drive the driving wheel 4 to rotate by the flowing water flow, so that the driving wheel 4 acts on the pool water flow to drive the cleaner body 1 to move. The cleaner body 1 is driven to move by driving the driving wheel 4 to rotate through the rotary hydraulic driving mechanism 3, so that the waterproof treatment of electronic devices is not required to be considered, and the structure and the cost of the cleaner body are simplified.

In the present invention, the rotary hydraulic drive mechanism 3 comprises an impeller seat 31 and a power impeller 32; the impeller seat 31 is mounted on the cleaner body 1, the impeller seat 31 has a water inlet 311 and a water outlet 312 communicated with the inner cavity of the impeller seat, the power impeller 32 is rotatably mounted in the inner cavity of the impeller seat 31, and the power impeller 32 is in transmission connection with the driving wheel 4 to drive the driving wheel 4 to rotate.

In the utility model, the power impeller 32 can be in transmission connection with the driving wheel 4 through the timing reversing device 33, so that the cleaner main body 1 can change the direction, and further, the utility model can clean dirt floating on the water surface as far as possible.

In the present invention, the number of the driving wheels 4 is two, and the two driving wheels 4 are respectively rotatably arranged at both sides of the cleaner body 1; the timing reversing device 33 is provided with a transmission shaft 331 which alternately performs positive rotation and reverse rotation, and two ends of the transmission shaft 331 are respectively in transmission connection with the two driving wheels 4; the two ends of the transmission shaft 331 are divided into a first end and a second end, and the two driving wheels 4 are divided into a first driving wheel 41 and a second driving wheel 42; the first end of the transmission shaft 331 is in transmission connection with the first driving wheel 41, the first driving wheel 41 and the transmission shaft 331 are synchronously rotated, and the second end of the transmission shaft 331 is connected with the second driving wheel 42 through the one-way ratchet device 5. When the transmission shaft 331 of the timing reversing device 33 rotates forwards, the one-way ratchet device 5 is in a locked state, and the forward rotation of the transmission shaft 331 can drive the first driving wheel 41 and the second driving wheel 42 to rotate synchronously, so that the cleaner body 1 moves; when the transmission shaft 331 of the timing reversing device 33 rotates reversely, the one-way ratchet device 5 is in an unlocked state at this time, so that the reverse rotation of the transmission shaft 331 only drives the first driving wheel 41 to rotate synchronously, which causes a difference in rotation speed between the first driving wheel 41 and the second driving wheel 42, thereby automatically changing the direction of the cleaner body 1; therefore, the cleaner main body 1 can change the direction by arranging the timing reversing device 33 and the one-way ratchet device 5, so that the cleaner can clean dirt floating on the water surface as far as possible.

In the present invention, the timing reversing device 33 includes a driving gear 332, a driven gear 333, a reversing cam 334, an idler gear 335, a reversing swinging member 336 and a transmission gear 337; the driving gear 332, the driven gear 333, the reversing cam 334 and the transmission gear 337 are rotatably fitted to the cleaner body 1, the power impeller 32 drives the driving gear 332 and the reversing cam 334 to rotate, the driving gear 332 is engaged with the driven gear 333, a reversing cam groove 3341 is formed in an end surface of the reversing cam 334, the transmission gear 337 drives the driving wheel 4 to rotate, and the transmission gear 337 is coaxially connected with the transmission shaft 331 to drive the driving wheel 4 to rotate through the transmission shaft 331; the reversing swinging piece 336 can be in swinging fit with the cleaner body 1, and the reversing swinging piece 336 is in sliding connection with the reversing cam groove 3311; the idler gear 335 is rotatably mounted to the reversing swinging member 336 and the idler gear 335 is in meshing engagement with the drive gear 337; when the reversing cam 334 rotates, the reversing swinging piece 336 can circularly slide along the reversing cam groove 3341 of the reversing cam 334, so that the reversing cam 334 drives the reversing swinging piece 336 to reciprocate, the reversing swinging piece 336 reciprocates and drives the idle wheel 335 to reciprocate, and further the idle wheel 335 is alternatively meshed with the driving gear 332 and the driven gear 333, so that the transmission gear 337 is controlled to alternately rotate forwards and backwards, and further the transmission shaft 331 alternately rotates forwards and backwards.

In the present invention, the timing reversing device 33 can be installed outside the impeller seat 31, so as to prevent water entering the impeller seat 31 from interfering with the timing reversing device 33, and thus the timing reversing device 33 can operate smoothly. The driving gear 332, the driven gear 333, the reversing cam 334 and the transmission gear 337 can be rotatably mounted on a fixed bracket 338, the driving gear 332, the driven gear 333 and the transmission gear 337 are located on the same side of the fixed bracket 338, and the reversing cam 334 is located on the other side of the fixed bracket 338; the fixed bracket 338 is provided with an arc-shaped guide hole 3381, the reversing swinging member 336 can rotatably and slidably pass through the arc-shaped guide hole 3381 to enable the reversing swinging member 336 to swing, one end of the reversing swinging member 336 is in sliding connection with the reversing cam groove 3341, and the other end of the reversing cam groove 3341 is rotatably connected with the idle wheel 335; the fixing bracket 338 may fix the timing reversal device 33 to the outside of the impeller seat 31 by being screwed to the outside of the impeller seat 31. The axial center of the power impeller 32 is connected with a power shaft 321, one end of the power shaft 321 rotatably penetrates out of the impeller seat 31, the power shaft 321 is in transmission connection with a driving gear 332 and a reversing cam 334 to drive the driving gear 332 and the reversing cam 334 to rotate, wherein the power shaft 321 can be in transmission connection with the driving gear 332 through a gear transmission structure, and the power shaft 321 can be in transmission connection with the reversing cam 334 through a worm and gear transmission structure.

In the present invention, the one-way ratchet device 5 comprises an outer ratchet 51 and an outer stopper 52; the outer ratchet wheel 51 is in transmission connection with the second end of the transmission shaft 331, the outer ratchet wheel 51 and the transmission shaft 331 rotate synchronously, the outer ratchet wheel 51 and the second end of the transmission shaft 331 can be in transmission connection in a gear transmission mode, and a plurality of outer ratchets 511 are arranged on the periphery of the outer ratchet wheel 51; the outer stopper 52 is swingably mounted on the second drive wheel 42, the second drive wheel 42 is coaxially disposed with the outer ratchet wheel 51, and the outer stopper 52 is in contact with the outer ratchet teeth 511 of the outer ratchet wheel 51 and allows only the outer ratchet wheel 1 to rotate in one direction with respect to the second drive wheel 42. When the transmission shaft 331 of the timing reversing device 33 rotates forwards, the end of the outer stop piece 52 is clamped by the outer ratchet 511 of the outer ratchet wheel 51 at this time, so that the one-way ratchet wheel device 5 is in a locked state, at this time, the forward rotation of the transmission shaft 331 can drive the outer ratchet wheel 51 to rotate, and the outer ratchet wheel 51 drives the second driving wheel 42 to rotate synchronously; when the transmission shaft 331 of the timing reversing device 33 rotates reversely, the transmission shaft 331 drives the outer ratchet wheel 51 to rotate, the one-way ratchet device 5 is in the unlocked state, and the outer stop 52 slides over the outer ratchet 511 of the outer ratchet wheel 51 when the outer ratchet wheel 51 rotates, so that the outer ratchet wheel 51 cannot drive the second driving wheel 42 to rotate.

The one-way ratchet device 5 further comprises an inner ratchet wheel 53 and an inner stop 54; the inner ratchet wheel 53 is coaxially connected with the second driving wheel 42, the inner ratchet wheel 53 and the second walking wheel 53 are synchronously rotated, and a plurality of inner ratchets 531 are arranged on the inner periphery of the inner ratchet wheel 53; the inner stop piece 54 is in transmission connection with the second end of the transmission shaft 331, the inner stop piece 54 is arranged to rotate synchronously with the transmission shaft 331, the inner stop piece 54 can be coaxially connected with the outer ratchet wheel 51, the outer wall of the inner stop piece 54 is provided with at least one elastic pawl 541, the elastic pawl 541 of the inner stop piece 54 is in contact with the inner ratchet 531 of the inner ratchet wheel 53, and only the inner ratchet wheel 53 is allowed to rotate unidirectionally relative to the inner stop piece 54. When the transmission shaft 331 of the timing reversing device 33 rotates forward, the elastic pawl 541 of the inner stop piece 54 blocks the inner ratchet 531 of the inner ratchet wheel 53 at this time, so that the one-way ratchet wheel device 5 is in a locked state, and the forward rotation of the transmission shaft 331 can drive the inner stop piece 54 to rotate at this time, and the inner stop piece 54 drives the second driving wheel 42 to rotate synchronously through the inner ratchet wheel 53; when the transmission shaft 331 of the timing reversing device 33 rotates reversely, the transmission shaft 331 drives the inner stop member 54 to rotate, the one-way ratchet device 5 is in the unlocked state, and when the inner stop member 54 rotates, the elastic pawl 541 of the inner stop member 54 slides over the inner ratchet 531 of the inner ratchet wheel 53, so that the inner ratchet wheel 53 cannot drive the inner ratchet wheel 53 and the second driving wheel 42 to rotate.

It should be noted that the outer ratchet 51 and the outer stop 52 of the unidirectional ratchet device 5 form a unidirectional ratchet mechanism, and the inner ratchet 53 and the inner stop 53 of the unidirectional ratchet device 5 form another unidirectional ratchet mechanism.

It should be noted that, in the present invention, the two driving wheels 4 and the transmission shaft 341 may be synchronously rotated, so that when the transmission shaft 341 rotates forward and backward alternately, the two driving wheels 4 rotate forward and backward alternately to drive the cleaner main body 1 to move forward and backward alternately, so that the cleaner main body 14 may also change directions, and further, the present invention may clean up dirt floating on the water surface as much as possible.

In the present invention, the cleaner body 1 is provided with a water passing chamber 10, a sewage inlet 111 and a clean water outlet 121; the filter mechanism 2 comprises a filter screen 21 arranged in the water passing chamber 10 of the cleaner body 1, and the filter screen 21 divides the water passing chamber 10 into a sewage chamber 101 communicated with a sewage inlet 111 and a clean water chamber 102 communicated with a clean water outlet 121; the rotary hydraulic driving mechanism 3 is arranged in the clean water chamber 101 of the cleaner body 1, and the clean water outlet 121 is connected with the water outlet 312 of the impeller seat 31 of the rotary hydraulic driving mechanism 3 so that the clean water outlet 121 is communicated with the clean water chamber 102 through the inner cavity of the impeller seat 31; the clean water outlet 121 may be connected to a water pump inlet through a hose so that the water pump can suck the water flow in the water passing chamber 10 of the cleaner body 1 and the water flow in the water passing chamber 10 flows to rotate the power impeller 32. When the water pump sucks water flow in the water passing chamber 10 of the cleaner body 1, water flow on the water surface enters the water passing chamber 10 from the sewage inlet 111 and then flows out from the clean water outlet 121, and dirt contained in the water flow passing through the water passing chamber 10 is intercepted in the sewage chamber 101 by the filter screen 21, so that the dirt floating on the water surface is cleaned. The fresh water outlet 121 may be formed at the bottom of the cleaner body 1 so as to prevent the flow of water pumped by the water pump from interfering with the movement of the cleaner body 1.

In the present invention, the number of the two sewage inlets 111 may be two, the two sewage inlets 111 are oppositely disposed, and the sewage inlets 111 are located at the side of the cleaner body 1; thus, when the cleaner body 1 moves forward and backward, water flow on the water surface can enter the water passing cavity 10 from one sewage inlet 111 of the two sewage inlets 111, and therefore, the cleaning efficiency is improved by arranging the two opposite sewage inlets 111.

In the utility model, the sewage chamber 101 is matched with a one-way valve plate 112 for opening and closing the sewage inlet 111, the one-way valve plate 112 is arranged in the sewage chamber 101 in a swinging manner, and the one-way valve plate 112 is movably abutted against the inner peripheral edge of the sewage inlet 111; according to the utility model, the one-way valve plate 112 is arranged, so that water flow in the sewage chamber 101 can be prevented from flowing out from the sewage inlet 111, and further, dirt intercepted in the sewage chamber 101 is prevented from flowing back to the water surface from the sewage inlet 111, and thus the cleaning effect is ensured.

In the present invention, the cleaner body 1 includes an upper cover 11 opened at a lower side and a lower cover 12 opened at an upper side; the upper cover 11 and the lower cover 12 are connected to form the water passing cavity 10, and the filter screen 21 is clamped between the upper cover 11 and the lower cover 12 to divide the water passing cavity 10 into a sewage chamber 101 and a clean water chamber 102; the sewage inlet 111 is arranged on the upper cover 11, and the clean water outlet 121 is arranged on the lower cover 12, so that the clean water outlet 121 is lower than the sewage inlet 111. Wherein the upper cover 11 and the lower cover 12 are detachably connected to facilitate cleaning of dirt intercepted in the sewage chamber 101, and facilitate cleaning or replacement of the filter screen 21; the upper cover 11 and the lower cover 12 can be detachably connected through at least two connecting pieces 13, the connecting pieces 13 are rotatably connected with the lower cover 12, and the connecting pieces 13 are rotatably buckled with the connecting parts 112 of the upper cover 11, so that the upper cover 11 and the lower cover 12 can be conveniently disassembled and assembled.

The above embodiments and drawings are not intended to limit the form and style of the present invention, and any suitable changes or modifications thereof by those skilled in the art should be considered as not departing from the scope of the present invention.

Claims (14)

1. A wheeled surface cleaner, its characterized in that: comprises a floatable cleaner body, a rotary hydraulic driving mechanism and a filtering mechanism which are arranged on the cleaner body; the cleaner main body is matched with a driving wheel with a rotating blade, and the rotary hydraulic driving mechanism drives the driving wheel to rotate; the filtering mechanism is used for filtering the water flow.

2. The wheeled water surface cleaner of claim 1, wherein: the rotary hydraulic driving mechanism comprises an impeller seat and a power impeller;

the power impeller is rotatably arranged in the inner cavity of the impeller seat, and the power impeller is in transmission connection with the driving wheel to drive the driving wheel to rotate.

3. The wheeled water surface cleaner of claim 2, wherein: the power impeller is in transmission connection with the driving wheel through the timing reversing device.

4. The wheeled water surface cleaner of claim 3, wherein: the number of the driving wheels is two, and the two driving wheels can be respectively and rotatably arranged on two sides of the cleaner main body;

the timing reversing device is provided with a transmission shaft which alternately performs positive rotation and reverse rotation, and two ends of the transmission shaft are respectively in transmission connection with the two driving wheels.

5. The wheeled water surface cleaner of claim 4, wherein: the two driving wheels and the transmission shaft are arranged in a synchronous rotating mode.

6. The wheeled water surface cleaner of claim 5, wherein: the cleaner main body is provided with a water passing chamber, a clear water outlet and two sewage inlets, the two sewage inlets are oppositely arranged, and the sewage inlets are positioned on the side of the cleaner main body;

the filter mechanism comprises a filter screen arranged in a water passing cavity of the cleaner main body, and the filter screen divides the water passing cavity into a sewage cavity communicated with a sewage inlet and a clear water cavity communicated with a clear water outlet;

the rotary hydraulic driving mechanism is arranged in a clean water chamber of the cleaner main body, and a clean water outlet is connected with a water outlet of an impeller seat of the rotary hydraulic driving mechanism so that the clean water outlet is communicated with the clean water chamber through an inner cavity of the impeller seat.

7. The wheeled water surface cleaner of claim 4, wherein: the two ends of the transmission shaft are divided into a first end and a second end, and the two driving wheels are divided into a first driving wheel and a second driving wheel;

the first end of the transmission shaft is in transmission connection with the first driving wheel, the first driving wheel and the transmission shaft are arranged in a synchronous rotating mode, and the second end of the transmission shaft is connected with the second driving wheel through the one-way ratchet wheel device.

8. The wheeled water surface cleaner of claim 7, wherein: the one-way ratchet device comprises an outer ratchet and an outer stop piece;

the outer ratchet wheel is in transmission connection with the second end of the transmission shaft and is synchronously rotated with the transmission shaft, and a plurality of outer ratchets are arranged on the periphery of the outer ratchet wheel; the outer stop piece is arranged on a second driving wheel in a swinging mode, the second driving wheel and the outer ratchet wheel are coaxially arranged, and the outer stop piece is in contact with the outer ratchet of the outer ratchet wheel and only allows the outer ratchet wheel to rotate in one direction relative to the second driving wheel.

9. A wheeled surface cleaner according to claim 7 or 8, wherein: the one-way ratchet device comprises an inner ratchet and an inner stop piece;

the inner ratchet wheel is coaxially connected with the second driving wheel and synchronously rotates with the second driving wheel, and a plurality of inner ratchets are arranged on the inner periphery of the inner ratchet wheel;

the inner stop piece is in transmission connection with the second end of the transmission shaft and is arranged in a manner of synchronous rotation with the transmission shaft, at least one elastic pawl is arranged on the outer wall of the inner stop piece, and the elastic pawl of the inner stop piece is in contact with the inner ratchet of the inner ratchet wheel and only allows the inner ratchet wheel to rotate in one direction relative to the inner stop piece.

10. The wheeled water surface cleaner of claim 4, wherein: the timing reversing device comprises a driving gear, a driven gear, a reversing cam, an idler wheel, a reversing swinging piece and a transmission gear;

the driving gear, the driven gear, the reversing cam and the transmission gear are rotatably matched with the cleaner main body, the power impeller drives the driving gear and the reversing cam to rotate, the driving gear is meshed with the driven gear, the end face of the reversing cam is provided with a reversing cam groove, and the transmission gear is connected with the transmission shaft; the reversing swinging piece is matched with the cleaner body in a swinging mode and is in sliding connection with the reversing cam groove; the idler wheel is rotatably arranged on the reversing swinging piece and is meshed with the transmission gear;

when the reversing cam rotates, the reversing swinging piece is driven to swing in a reciprocating mode to drive the idler wheel to swing in a reciprocating mode, so that the idler wheel is meshed with the driving gear and the driven gear alternately, and the transmission gear is controlled to rotate forwards and reversely alternately.

11. The wheeled water surface cleaner of claim 2, wherein: the cleaner main body is provided with a water passing chamber, a sewage inlet and a clean water outlet;

the filter mechanism comprises a filter screen arranged in a water passing cavity of the cleaner main body, and the filter screen divides the water passing cavity into a sewage cavity communicated with a sewage inlet and a clear water cavity communicated with a clear water outlet;

the rotary hydraulic driving mechanism is arranged in a clean water chamber of the cleaner main body, and a clean water outlet is connected with a water outlet of an impeller seat of the rotary hydraulic driving mechanism so that the clean water outlet is communicated with the clean water chamber through an inner cavity of the impeller seat.

12. A wheeled surface cleaner according to claim 6 or 11, wherein: the clear water outlet is positioned at the bottom of the cleaner main body.

13. A wheeled surface cleaner according to claim 6 or 11, wherein: the cleaner body comprises an upper cover with an opening at the lower side and a lower cover with an opening at the upper side; the upper cover and the lower cover are detachably connected, and the filter screen is clamped between the upper cover and the lower cover; the sewage inlet is arranged on the upper cover, and the clear water outlet is arranged on the lower cover.

14. A wheeled surface cleaner according to claim 6 or 11, wherein: the sewage cavity cooperates with the one-way valve plate used for opening and closing the sewage inlet, the one-way valve plate can be arranged in the sewage cavity in a swinging mode, and the one-way valve plate is movably abutted to the inner peripheral edge of the sewage inlet.

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