CN115415231B - Surface self-cleaning handrail capable of intensively erasing surface floating ash and working method thereof - Google Patents

Abstract

The invention discloses a surface self-cleaning handrail capable of intensively erasing surface floating ashes and a working method thereof, belonging to the technical field of handrails and aiming at solving the problems that the existing mode of cleaning floating ashes by rain washing is poor in stability, incomplete in cleaning and inconvenient to intensively process the floating ashes in a manual flushing and wiping mode and large in workload.

Description

Surface self-cleaning handrail capable of intensively erasing surface floating ash and working method thereof

Technical Field

The invention relates to the technical field of handrails, in particular to a surface self-cleaning handrail capable of intensively erasing surface floating ash and a working method thereof.

Background

The handrail is a safety protection component arranged at the edges of the bench and the platform, and the handrail is arranged at the stair, the pavement and other places of a general building so as to assist pedestrians to walk. The most commonly used is a handrail of metal tube material, which is typically disposed along a wall or terrain.

At present, the handrail is arranged outdoors, because of environmental factors, a large amount of floating ashes can be stained on the surface of the handrail, so that the floating ashes can be stained on hands when pedestrians walk on the handrail, the existing floating ashes cleaning mode is mainly artificial flushing and wiping, or rain flushing is performed under a rainfall environment, however, the existing rain flushing cleaning floating ashes are poor in stability, incomplete in cleaning and inconvenient to intensively process the floating ashes in an artificial flushing and wiping mode, and the workload is large.

To solve the above problems. Therefore, a surface self-cleaning handrail capable of intensively erasing surface floating ash and a working method thereof are provided.

Disclosure of Invention

The invention aims to provide a surface self-cleaning handrail capable of intensively erasing surface floating ash and a working method thereof, which solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the surface self-cleaning handrail capable of intensively erasing surface floating ash comprises a middle joint assembly, a first handrail assembly and a second handrail assembly, wherein the first handrail assembly and the second handrail assembly are arranged on two sides of the middle joint assembly, the first handrail assembly and the second handrail assembly have the same composition structure, and two sides of the middle joint assembly are fixedly connected with mounting pieces for mounting the first handrail assembly and the second handrail assembly;

the first railing assembly comprises an upper flow guide frame and a lower storage frame arranged at the lower end of the upper flow guide frame, side connection frames are arranged on two sides of the upper flow guide frame and the lower storage frame, the side connection frames are connected with mounting pieces, and a plurality of groups of railing main bodies are arranged between the upper flow guide frame and the lower storage frame;

the upper end of the upper flow guide frame is provided with an upper groove, both sides of the inner wall of the upper groove are respectively connected with a flow guide plate, a plurality of groups of flow through grooves are formed in the bottom plate of the cavity of the upper groove, each group of flow through grooves respectively correspond to the position of the railing main body, the inner wall of each flow through groove is provided with a fixing piece, the fixing pieces are used for fixing the railing main body, the upper end of each fixing piece is provided with a flushing hole, the flushing holes are provided with a plurality of groups, and the flushing holes are all arranged in a surrounding manner relative to the outer wall of the railing main body.

Further, the upper end of the lower storage rack is provided with a storage tank for storage, an inclined plate main body is arranged on a cavity bottom plate of the storage tank, a first through hole is formed in the inner wall of one end, close to the middle connecting component, of the lower storage rack, and the first through hole is communicated with the middle connecting component.

Further, the middle joint assembly comprises a middle joint main body connected with the mounting piece, the lower end of the middle joint main body is provided with a supporting foot rest, and the outer wall of the middle joint main body is provided with a second through hole.

Further, one end of the second through hole penetrates through the outer wall of the middle joint main body to be communicated with the first through hole, the other end of the second through hole is communicated with the first water pump, the upper end of the first water pump is communicated with a transmission pipeline, a partition plate is arranged at one end, far away from the first water pump, of the transmission pipeline, and a filtering assembly is arranged at the upper end of the partition plate.

Further, the upper end of the filter assembly is provided with a water suction pipe, one end of the water suction pipe, which is far away from the filter assembly, is communicated with a second water pump, one end of the second water pump is communicated with a spray head main body, and a spray nozzle of the spray head main body is aligned with the inner cavity of the upper flow guide frame.

Further, the filter component comprises a movable frame which is connected with the inner wall of the main body in a sliding way, one end of the movable frame is fixedly connected with a pulling plate, and the inner wall of the movable frame is provided with the filter main body.

Further, the lower extreme fixedly connected with elasticity soft rod of railing main part, the lower extreme fixedly connected with threaded rod of elasticity soft rod, threaded rod run through swash plate main part, and threaded rod and swash plate main part threaded connection, the center of swash plate main part is in the inner wall hub connection of holding tank, and the mounting groove has been seted up to the one end that swash plate main part is close to first through-hole, and sealing mechanism is installed to the inner chamber of mounting groove.

Further, when the swash plate body is parallel to the reserve tank, the sealing mechanism seals the first through hole.

Further, sealing mechanism includes fixed mounting at the outer loop of mounting groove inner wall, and the inner wall fixedly connected with resilience piece of outer loop, and the resilience piece is provided with the multiunit, and encircles the setting about the inner wall of outer loop, and the one end fixedly connected with shrink ring of resilience piece, the diameter of shrink ring are less than the outer loop, and the one end fixedly connected with seal body of shrink ring, seal body and first through-hole phase-match.

The invention provides another technical scheme that: the working method of the surface self-cleaning handrail capable of intensively erasing surface floating ash is provided, and comprises the following steps:

s1: when the surface floating ash needs to be cleaned in rainy days, rainwater enters the inner cavity of the upper guide frame, flows to a plurality of groups of through flow grooves through the guide plates, then enters the flushing holes on the fixing piece through the through flow grooves, flows to the railing main body along the flushing holes, so that water flows downwards along the outer wall of the railing main body, and the guide frame and the floating ash on the outer wall of the railing main body are brought into the lower storage frame, so that the aim of centralized treatment is fulfilled;

s2: the water belt floating ash flows downwards to the storage rack and then enters the storage tank, so that water and the floating ash flow to the first through hole through the inclined plate main body and enter the middle connecting assembly, the first water pump is started, the first water pump drives the water to be filtered through the filtering assembly by utilizing the cooperation of the second through hole and the transmission pipeline, and the filtered water enters the partition plate for storage;

s3: meanwhile, the railing main body close to the middle joint component can be driven to rotate, the rotation of the threaded rod drives the inclined plate main body to move upwards near one end angle and drive the inclined plate main body to be parallel to the storage groove, at the moment, the shrinkage ring is shrunk on the inner wall of the outer ring, the rebound block is extruded to be in a tight state, the sealing main body can be attached to the inner wall of the storage groove by the reaction force of the rebound block to move upwards gradually, when the inclined plate main body is parallel to the storage groove, the sealing main body can be pushed into the first through hole to seal the storage groove, at the moment, collected water cannot enter, the base number of dust in water can be observed manually, whether the collected water enters the middle joint component is controlled, and the condition that excessive dust in water causes poor filtering efficiency is avoided;

s4: when the non-rainfall environment is used for treating the floating ash, the second water pump and the spray head main body are started, so that filtered water is driven to enter the spray head main body through the water suction pipe and flows out of the spray head main body, and accordingly the floating ash on the outer walls of the diversion frame and the railing main body is brought into the lower storage frame, and rainwater is recycled.

Compared with the prior art, the invention has the beneficial effects that:

1. when the surface floating ash needs to be cleaned, external water source or rainwater is utilized to enter the inner cavity of the upper guide frame, the water flows to a plurality of groups of through flow grooves through the guide plate, then flows to the railing main body along the flushing holes on the fixing piece through the through flow grooves, so that water flows downwards along the outer wall of the railing main body, the floating ash on the outer walls of the guide frame and the railing main body is brought into the lower storage frame, the floating ash is treated, the floating ash is prevented from being stained on hands when pedestrians hold the railing, and the floating ash is convenient to carry out centralized treatment.

2. The first water pump is started, the first water pump utilizes the cooperation of the second through hole and the transmission pipeline to drive water to be filtered through the filtering component, the filtered water enters the partition plate to be stored, the second water pump and the nozzle main body are started when the floating ash is required to be treated next time, so that the filtered water is driven to enter the nozzle main body through the water suction pipe and flow out of the nozzle main body, thereby the floating ash on the outer walls of the diversion frame and the handrail main body is brought into the lower storage frame, the floating ash can be treated in non-rainfall weather, and rainwater can be recycled.

3. The utility model provides a but self-cleaning handrail of surface and method of working that concentrated surface floating dust of erasing, through rotating the railing main part that is close to the intermediate junction subassembly, can drive the threaded rod and rotate, the rotation of threaded rod drives the swash plate main part and is close to one end angle and upwards move, drive the parallel bin of swash plate main part, shrink the inner wall at the outer ring at this moment, the rebound piece is pressed to tight state, the sealed main part can laminate the inner wall of bin through the reaction force of rebound piece and gradually upwards move, when the parallel bin of swash plate main part, the sealed main part can be pushed into first through-hole and sealed it, at this moment the water of collecting can't get into, the base number of dust in the accessible people observation water gets into the intermediate junction subassembly in, the excessive dust in the control water is avoided, lead to the filtration inefficiency.

Drawings

FIG. 1 is a schematic view of the overall perspective of a surface self-cleaning handrail of the present invention for concentrated erasure of surface soot;

FIG. 2 is a schematic view of the overall planar structure of a surface self-cleaning handrail of the present invention for concentrated erasure of surface soot;

FIG. 3 is a schematic top view of an upper guide frame of a surface self-cleaning handrail with concentrated surface ash removal according to the present invention;

FIG. 4 is an enlarged schematic view of the structure of the hand rail of FIG. 1 at A for cleaning the surface of the hand rail with concentrated surface soot removal in accordance with the present invention;

FIG. 5 is a schematic view of the structure of the lower storage rack and intermediate assembly of the surface self-cleaning handrail of the present invention for concentrated surface ash removal;

FIG. 6 is a schematic perspective view of a center joint assembly of a surface self-cleaning handrail with concentrated surface ash removal in accordance with the present invention;

FIG. 7 is a schematic view of the internal plan view of the intermediate assembly of the surface self-cleaning handrail of the present invention for concentrated erasure of surface floating ash;

FIG. 8 is a schematic view of a balustrade body of a surface self-cleaning handrail with concentrated surface ash removal in accordance with the present invention;

FIG. 9 is a schematic view of the threaded rod and inclined plate body of the surface self-cleaning handrail of the present invention for concentrated surface ash removal;

FIG. 10 is a schematic view of a sealing mechanism of a surface self-cleaning handrail with concentrated surface ash removal in accordance with the present invention.

In the figure: 1. a middle joint component; 11. a middle joint main body; 12. a support foot rest; 13. a second through hole; 14. a first water pump; 15. a transmission pipeline; 16. a filter assembly; 161. a movable frame; 162. pulling a plate; 163. a filtering body; 17. a water suction pipe; 18. a second water pump; 19. a head main body; 2. a first rail assembly; 21. an upper flow guiding frame; 22. a lower storage rack; 23. a side connecting frame; 24. a rail body; 25. upper grooving; 26. a deflector; 27. a flow through groove; 271. a fixing member; 272. flushing the hole; 28. a storage tank; 29. a swash plate body; 210. a first through hole; 211. an elastic soft rod; 212. a threaded rod; 213. a mounting groove; 214. a sealing mechanism; 2141. an outer ring; 2142. a shrink ring; 2143. a rebound block; 2144. a sealing body; 3. a second rail assembly; 4. and a mounting member.

Detailed Description

The following description of the embodiments of the present invention 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 invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-10, in order to solve the problems that the existing mode of cleaning floating ash by rain wash is poor in stability, incomplete in cleaning, inconvenient to perform centralized treatment on floating ash by a manual flushing and wiping mode, and large in workload, the following preferred technical scheme is provided:

the utility model provides a but self-cleaning handrail in surface of concentrated erasure surface floating dust, connects subassembly 1 in including, and set up in the first railing subassembly 2 and the second railing subassembly 3 that connect subassembly 1 both sides in, the component structure of first railing subassembly 2 and second railing subassembly 3 is the same, its characterized in that: the two sides of the middle connecting component 1 are fixedly connected with mounting pieces 4 for mounting the first railing component 2 and the second railing component 3;

the first rail component 2 comprises an upper diversion frame 21 and a lower storage frame 22 arranged at the lower end of the upper diversion frame 21, side connection frames 23 are arranged on two sides of the upper diversion frame 21 and the lower storage frame 22, the side connection frames 23 are connected with the mounting piece 4, and a plurality of groups of rail main bodies 24 are arranged between the upper diversion frame 21 and the lower storage frame 22;

the upper end of the upper flow guiding frame 21 is provided with an upper groove 25, both sides of the inner wall of the upper groove 25 are connected with flow guiding plates 26, a plurality of groups of flow through grooves 27 are formed in the cavity bottom plate of the upper groove 25, each group of flow through grooves 27 respectively correspond to the position of the railing main body 24, a fixing piece 271 is mounted on the inner wall of each flow through groove 27, the fixing piece 271 is used for fixing the railing main body 24, a flushing hole 272 is formed in the upper end of the fixing piece 271, a plurality of groups of flushing holes 272 are formed, and the flushing holes 272 are all arranged in a surrounding mode relative to the outer wall of the railing main body 24.

Specifically, through the cooperation of well connect subassembly 1 and installed part 4, can make things convenient for the installation of first railing subassembly 2 and second railing subassembly 3, when needs clearance surface floating dust, utilize external water source or rainwater to get into the inner chamber of upper guide frame 21, can flow to multiunit through guide plate 26, the rethread through-flow groove 27 gets into the flushing hole 272 on the mounting 271, flow to railing main part 24 along flushing hole 272, thereby water can flow downwards along the outer wall of railing main part 24, carry the outer wall floating dust of guide frame 21 and railing main part 24 into lower storage frame 22, not only handle the floating dust, the floating dust can not be stained with on hand when guaranteeing that the pedestrian holds up the railing, and conveniently carry out centralized processing to the floating dust.

In order to facilitate collection of clean water, the following preferred technical scheme is provided:

the upper end of the lower storage rack 22 is provided with a storage tank 28 for storage, an inclined plate main body 29 is arranged on a cavity bottom plate of the storage tank 28, a first through hole 210 is formed in the inner wall of one end, close to the middle connecting component 1, of the lower storage rack 22, and the first through hole 210 is communicated with the middle connecting component 1.

Specifically, the water and the floating ash flow down the storage rack 22 and then enter the storage tank 28, so that the water and the floating ash flow to the first through hole 210 through the inclined plate body 29, and then enter the intermediate joint assembly 1 from the first through hole 210.

In order to recycle rainwater, the following preferable technical scheme is provided:

the middle joint assembly 1 comprises a middle joint main body 11 connected with the mounting piece 4, a supporting foot rest 12 is arranged at the lower end of the middle joint main body 11, and a second through hole 13 is formed in the outer wall of the middle joint main body 11.

One end of the second through hole 13 penetrates through the outer wall of the middle joint main body 11 to be communicated with the first through hole 210, the other end of the second through hole 13 is communicated with the first water pump 14, the upper end of the first water pump 14 is communicated with the transmission pipeline 15, one end, far away from the first water pump 14, of the transmission pipeline 15 is provided with a partition plate, and the upper end of the partition plate is provided with the filtering component 16.

The upper end of the filter assembly 16 is provided with a water suction pipe 17, one end of the water suction pipe 17 far away from the filter assembly 16 is communicated with a second water pump 18, one end of the second water pump 18 is communicated with a spray head main body 19, and a spray nozzle of the spray head main body 19 is aligned with an inner cavity of the upper flow guide frame 21.

Specifically, when water and floating ash enter the middle joint assembly 1 through the first through hole 210, the first water pump 14 is started, the first water pump 14 utilizes the cooperation of the second through hole 13 and the transmission pipeline 15 to drive the water to be filtered through the filtering assembly 16, the filtered water enters the partition plate to be stored, when the floating ash needs to be treated next time, the second water pump 18 and the spray head main body 19 are started, so that the filtered water is driven to enter the spray head main body 19 through the water suction pipe 17 and flow out from the spray head of the spray head main body 19, and accordingly the floating ash on the outer walls of the diversion frame 21 and the railing main body 24 is brought into the lower storage frame 22, the floating ash can be treated in non-rainfall weather, and rainwater can be recycled.

In order to ensure the filtering quality, the following preferable technical scheme is provided:

the filter assembly 16 comprises a movable frame 161 which is slidably connected to the inner wall of the middle joint main body 11, one end of the movable frame 161 is fixedly connected with a pulling plate 162, and the inner wall of the movable frame 161 is provided with a filter main body 163.

Specifically, the filter main body 163 can be pulled out through the cooperation of the pulling plate 162 and the movable frame 161, so that the filter main body 163 is convenient to replace, and the filtering quality is ensured.

In order to avoid the problem that the filtering efficiency is poor due to excessive dust in water, the following preferable technical scheme is provided:

the lower extreme fixedly connected with elasticity soft rod 211 of railing main part 24, the lower extreme fixedly connected with threaded rod 212 of elasticity soft rod 211, threaded rod 212 runs through swash plate main part 29, and threaded rod 212 and swash plate main part 29 threaded connection, the center of swash plate main part 29 is in the inner wall hub connection of holding tank 28, and mounting groove 213 has been seted up to the one end that swash plate main part 29 is close to first through-hole 210, and sealing mechanism 214 is installed to the inner chamber of mounting groove 213.

When the swash plate body 29 is parallel to the reserve tank 28, the sealing mechanism 214 seals the first through hole 210.

The sealing mechanism 214 includes an outer ring 2141 fixedly installed on the inner wall of the installation groove 213, a rebound block 2143 is fixedly connected to the inner wall of the outer ring 2141, multiple groups of rebound blocks 2143 are provided and are circumferentially arranged with respect to the inner wall of the outer ring 2141, a contraction ring 2142 is fixedly connected to one end of the rebound block 2143, the diameter of the contraction ring 2142 is smaller than that of the outer ring 2141, a sealing main body 2144 is fixedly connected to one end of the contraction ring 2142, and the sealing main body 2144 is matched with the first through hole 210.

Specifically, by rotating the railing main body 24 close to the middle joint assembly 1, the threaded rod 212 can be driven to rotate, the threaded rod 212 rotates to drive the inclined plate main body 29 to move upwards near one end angle, the inclined plate main body 29 is driven to be parallel to the storage tank 28, at this time, the shrinkage ring 2142 is shrunk on the inner wall of the outer ring 2141, the rebound block 2143 is extruded to be in a tight state, the sealing main body 2144 can be attached to the inner wall of the storage tank 28 by the reaction force of the rebound block 2143 to move upwards gradually, when the inclined plate main body 29 is parallel to the storage tank 28, the sealing main body 2144 can be pushed into the first through hole 210 to seal the storage tank 28, at this time, collected water cannot enter, the base number of dust in water can be observed manually, whether the collected water enters the middle joint assembly 1 or not is controlled, and excessive dust in the water is avoided, so that the filtering efficiency is poor.

To further better explain the above examples, the present invention also provides an embodiment of a method of operating a surface self-cleaning handrail for centralized erasure of surface floating ash, comprising the steps of:

step one: when the surface floating ash needs to be cleaned in rainy days, rainwater enters the inner cavity of the upper guide frame 21, flows to a plurality of groups of through flow grooves 27 through the guide plates 26, then enters flushing holes 272 on the fixing pieces 271 through the through flow grooves 27, flows to the railing main body 24 along the flushing holes 272, and accordingly flows downwards along the outer wall of the railing main body 24, and the guide frame 21 and the floating ash on the outer wall of the railing main body 24 are brought into the lower storage frame 22, so that the aim of centralized treatment is fulfilled;

step two: the water belt floating ash flows down to the storage rack 22 and then enters the storage tank 28, so that water and the floating ash flow to the first through hole 210 are driven by the inclined plate main body 29 to enter the middle joint assembly 1, the first water pump 14 is started, the first water pump 14 drives the water to be filtered by the filtering assembly 16 by utilizing the cooperation of the second through hole 13 and the transmission pipeline 15, and the filtered water enters the partition plate for storage;

step three: meanwhile, the railing main body 24 close to the middle joint assembly 1 can be driven to rotate by rotating, the threaded rod 212 can be driven to rotate, the inclined plate main body 29 is driven to move upwards near one end angle by rotating, the inclined plate main body 29 is driven to be parallel to the storage tank 28, at the moment, the contraction ring 2142 is contracted on the inner wall of the outer ring 2141, the rebound block 2143 is extruded to be in a tight state, the sealing main body 2144 can be attached to the inner wall of the storage tank 28 by the reaction force of the rebound block 2143 to move upwards gradually, when the inclined plate main body 29 is parallel to the storage tank 28, the sealing main body 2144 can be pushed into the first through hole 210 to seal the storage tank 28, at the moment, collected water cannot enter, the base number of dust in water can be observed manually, whether the collected water enters the middle joint assembly 1 or not is controlled, and poor filtering efficiency is avoided;

step four: when the floating ash is treated in a non-rainfall environment, the second water pump 18 and the nozzle main body 19 are started, so that filtered water is driven to enter the nozzle main body 19 through the water suction pipe 17 and flow out of the nozzle main body 19, and the floating ash on the outer walls of the diversion frame 21 and the railing main body 24 is brought into the lower storage frame 22, so that rainwater is recycled.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should be covered by the protection scope of the present invention by making equivalents and modifications to the technical solution and the inventive concept thereof.

Claims (10)

1. Surface self-cleaning handrail capable of intensively erasing surface floating ash comprises a middle connecting component (1), and a first handrail component (2) and a second handrail component (3) which are arranged on two sides of the middle connecting component (1), wherein the first handrail component (2) and the second handrail component (3) have the same composition structure, and the surface self-cleaning handrail is characterized in that: the two sides of the middle connecting component (1) are fixedly connected with mounting pieces (4) for mounting the first railing component (2) and the second railing component (3);

the first railing assembly (2) comprises an upper flow guiding frame (21) and a lower storage frame (22) arranged at the lower end of the upper flow guiding frame (21), side connecting frames (23) are arranged on two sides of the upper flow guiding frame (21) and the lower storage frame (22), the side connecting frames (23) are connected with mounting pieces (4), and a plurality of groups of railing main bodies (24) are arranged between the upper flow guiding frame (21) and the lower storage frame (22);

the upper end of going up water conservancy diversion frame (21) has been seted up and has been gone up fluting (25), the inner wall both sides of going up fluting (25) all are connected with guide plate (26), the multiunit through-flow groove (27) have been seted up on the intracavity bottom plate of going up fluting (25), and every through-flow groove (27) are corresponding with the position of railing main part (24) respectively, mounting (271) are installed to the inner wall of through-flow groove (27), mounting (271) are used for fixed railing main part (24), wash out hole (272) have been seted up to the upper end of mounting (271), wash out hole (272) and be provided with multiunit, and all encircle setting about the outer wall of railing main part (24).

2. The surface self-cleaning handrail for concentrated erasure of surface floating ash of claim 1, wherein: the upper end of the lower storage rack (22) is provided with a storage tank (28) for storage, an inclined plate main body (29) is arranged on a cavity bottom plate of the storage tank (28), a first through hole (210) is formed in the inner wall of one end, close to the middle connecting component (1), of the lower storage rack (22), and the first through hole (210) is communicated with the middle connecting component (1).

3. The surface self-cleaning handrail for concentrated erasure of surface floating ash of claim 2, wherein: the middle joint assembly (1) comprises a middle joint main body (11) connected with the mounting piece (4), a supporting foot rest (12) is arranged at the lower end of the middle joint main body (11), and a second through hole (13) is formed in the outer wall of the middle joint main body (11).

4. A surface self-cleaning handrail for a concentrated erasure of surface floating ash as claimed in claim 3, wherein: one end of the second through hole (13) penetrates through the outer wall of the middle joint main body (11) to be communicated with the first through hole (210), the other end of the second through hole (13) is communicated with the first water pump (14), the upper end of the first water pump (14) is communicated with the transmission pipeline (15), one end, far away from the first water pump (14), of the transmission pipeline (15) is provided with a partition plate, and the upper end of the partition plate is provided with the filtering component (16).

5. The surface self-cleaning handrail of claim 4 for concentrated erasure of surface soot, wherein: the upper end of filtering subassembly (16) is provided with the water suction pipe (17), and the one end intercommunication that filtering subassembly (16) were kept away from to water suction pipe (17) has second water pump (18), and the one end intercommunication of second water pump (18) has shower nozzle main part (19), and the inner chamber of water conservancy diversion frame (21) is gone up in the spout alignment of shower nozzle main part (19).

6. The surface self-cleaning handrail of claim 5 for concentrated erasure of surface soot, wherein: the filter assembly (16) comprises a movable frame (161) which is connected with the inner wall of the middle connecting main body (11) in a sliding way, one end of the movable frame (161) is fixedly connected with a pulling plate (162), and the inner wall of the movable frame (161) is provided with a filter main body (163).

7. The surface self-cleaning handrail of claim 6 for concentrated erasure of surface soot, wherein: the lower extreme fixedly connected with elasticity soft rod (211) of railing main part (24), the lower extreme fixedly connected with threaded rod (212) of elasticity soft rod (211), threaded rod (212) run through swash plate main part (29), and threaded rod (212) and swash plate main part (29) threaded connection, the center of swash plate main part (29) is in the inner wall hub connection of holding tank (28), mounting groove (213) have been seted up to one end that swash plate main part (29) is close to first through-hole (210), sealing mechanism (214) are installed to the inner chamber of mounting groove (213).

8. The surface self-cleaning handrail of claim 7 for concentrated erasure of surface soot, wherein: when the swash plate body (29) is parallel to the reserve tank (28), the seal mechanism (214) seals the first through hole (210).

9. The surface self-cleaning handrail of claim 8 for concentrated erasure of surface soot, wherein: sealing mechanism (214) are including fixed mounting outer loop (2141) at mounting groove (213) inner wall, the inner wall fixedly connected with resilience piece (2143) of outer loop (2141), resilience piece (2143) are provided with the multiunit, and encircle setting about the inner wall of outer loop (2141), the one end fixedly connected with shrink ring (2142) of resilience piece (2143), the diameter of shrink ring (2142) is less than outer loop (2141), the one end fixedly connected with seal main part (2144) of shrink ring (2142), seal main part (2144) and first through-hole (210) assorted.

10. A method of operating a surface self-cleaning handrail with concentrated surface ash removal as claimed in claim 9, comprising the steps of:

s1: when the surface floating ash is required to be cleaned in rainy days, rainwater enters the inner cavity of the upper guide frame (21), flows to a plurality of groups of through flow grooves (27) through the guide plates (26), then enters flushing holes (272) on the fixing piece (271) through the through flow grooves (27), flows to the railing main body (24) along the flushing holes (272), so that water can flow downwards along the outer wall of the railing main body (24), and the floating ash on the outer walls of the guide frame (21) and the railing main body (24) is brought into the lower storage frame (22), so that the aim of centralized treatment is fulfilled;

s2: the water belt floating ash flows into the storage tank (28) after flowing down the storage rack (22), so that the inclined plate main body (29) drives water and the floating ash to flow into the first through hole (210) to enter the middle connecting assembly (1), the first water pump (14) is started, the first water pump (14) drives the water to be filtered through the filtering assembly (16) by utilizing the cooperation of the second through hole (13) and the transmission pipeline (15), and the filtered water enters the partition plate to be stored;

s3: meanwhile, the railing main body (24) close to the middle joint assembly (1) can be rotated to drive the threaded rod (212) to rotate, the threaded rod (212) rotates to drive the inclined plate main body (29) to move upwards near one end angle to drive the inclined plate main body (29) to be parallel to the storage groove (28), at the moment, the contraction ring (2142) is contracted on the inner wall of the outer ring (2141), the rebound block (2143) is extruded to be in a tight state, the sealing main body (2144) can be attached to the inner wall of the storage groove (28) by the reaction force of the rebound block (2143) to move upwards gradually, and when the inclined plate main body (29) is parallel to the storage groove (28), the sealing main body (2144) can be pushed into the first through hole (210) to seal the storage groove, at the moment, collected water can not enter, the cardinal number of dust in water can be observed manually, whether the collected water enters the middle joint assembly (1) is controlled, and poor filtering efficiency is avoided;

s4: when the non-rainfall environment is used for treating the floating ash, the second water pump (18) and the spray head main body (19) are started, so that filtered water is driven to enter the spray head main body (19) through the water suction pipe (17) and flows out of the spray head main body (19), and accordingly the floating ash on the outer walls of the diversion frame (21) and the railing main body (24) is brought into the lower storage frame (22), and rainwater is recycled.

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