阅读说明：本技术 一种用于城市道路积水清除器 (Be used for urban road ponding duster ) 是由 席俊秀 马洪成 于 2021-10-19 设计创作，主要内容包括：本发明公开了一种用于城市道路积水清除器,涉及活性炭滤桶废气处理技术领域,包括底座和收放机构,所述底座两侧端面安装有导向轨,所述底座内部安装有收放机构,且所述收放机构包括收纳腔、丝杆、轴套、摆杆、收放板、转动销、电机、皮带、从动杆、安装座和转盘。该用于城市道路积水清除器,针对城市坑洼路面积水清理存在死角的现象,通过收放机构赋予吸水主体调整输出角度的能力,使其应对不同深度的清理环境显得游刃有余,尤其是针对平坦路面积水时更加能够替代传统吸头完成清除工作,此外通过滚筒外部输出海绵体结构设置,快速吸纳积水并有利于后续快速清理替换,操作简单维护方便,适合城市环卫工作大面积推广,适用性很强。(The invention discloses a cleaner for accumulated water on urban roads, which relates to the technical field of waste gas treatment of activated carbon filter barrels and comprises a base and a retraction mechanism, wherein guide rails are arranged on the end surfaces of two sides of the base, the retraction mechanism is arranged in the base, and the retraction mechanism comprises a storage cavity, a lead screw, a shaft sleeve, a swing rod, a retraction plate, a rotating pin, a motor, a belt, a driven rod, a mounting seat and a rotary table. This be used for urban road ponding duster, there is the phenomenon at dead angle to the clearance of urban hollow road surface ponding, give the ability of main part adjustment output angle of absorbing water through jack, make its clearance environment of answering the different degree of depth seem more than, especially can replace traditional suction head to accomplish more when flat road surface ponding and clear away work, set up through cylinder outside output cavernosum structure in addition, fast absorb ponding and be favorable to follow-up quick clearance replacement, easy operation maintains conveniently, be fit for urban sanitation work and promote by a large scale, the suitability is very strong.)

1. The utility model provides a be used for urban road ponding duster, includes base (1) and jack (3), its characterized in that, guided way (2) are installed to base (1) both sides terminal surface, base (1) internally mounted has jack (3), just jack (3) are including accomodating chamber (301), lead screw (302), axle sleeve (303), pendulum rod (304), receive and release board (305), rotational pin (306), motor (307), belt (308), driven lever (309), mount pad (310) and carousel (311), it has lead screw (302) to run through inside the chamber (301) to accomodate, and lead screw (302) middle part meshing installs axle sleeve (303), axle sleeve (303) bottom is rotated and is installed pendulum rod (304), and pendulum rod (304) keep away from axle sleeve (303) one end and install and receive and release board (305), it is identical with accomodating chamber (301) degree of depth to receive and release board (305) thickness, and receive and release board (305) inboard and rotate and install rotating pin (306), receive and release board (305) bottom left side and install motor (307), and motor (307) openly output cover is equipped with belt (308), belt (308) keep away from motor (307) output one side cover and are equipped with driven lever (309), and driven lever (309) middle part is provided with mount pad (310), mount pad (310) fixed mounting is in receiving and releasing board (305) bottom right side, driven lever (309) output end rotates and installs carousel (311).

2. The urban road accumulated water remover according to claim 1, wherein a water absorption body (4) is mounted on the back of the rotary plate (311), the water absorption body (4) comprises a cylinder body (401), a driving end (402) and a prismatic groove (403), the driving end (402) is mounted on the top of the cylinder body (401), the rotary plate (311) is in transmission connection with the cylinder body (401) through the driving end (402), and the prismatic groove (403) is formed in the circumferential surface of the cylinder body (401).

3. The urban road ponding clearer according to claim 2, characterized in that the water absorption body (4) further comprises a chassis (404) and an expansion plate (405), the bottom of the cylinder (401) is fixedly provided with the chassis (404), the top of the chassis (404) is slidably provided with the expansion plate (405), and the expansion plate (405) is tightly attached to the inner wall of the prismatic groove (403).

4. The urban road ponding remover according to claim 3, characterized in that said water absorption body (4) further comprises a bolt (406) and a sponge (407), said expansion board (405) is externally mounted with a bolt (406), and the bottom of the bolt (406) is mounted with a sponge (407), said sponge (407) is detachably connected with the expansion board (405) through the bolt (406).

5. The urban road ponding clearer according to claim 3, wherein the water absorption body (4) further comprises a connecting rod (408), a rotating plate (409), a sleeve (410), a cylinder (411) and a push-pull rod (412), the connecting rod (408) is rotatably installed inside the expansion plate (405), the rotating plate (409) is rotatably installed at one end, away from the expansion plate (405), of the connecting rod (408), the rotating plate (409) is fixedly installed on the back of the rotating plate (409), the cylinder (411) is arranged inside the sleeve (410), the sleeve (410) is tightly attached to the outside of the cylinder (411) in a sliding sleeved mode, the push-pull rod (412) penetrates through the cylinder (411) and is in transmission connection with the sleeve (410).

6. The urban road ponding clearer according to claim 5, characterized in that a water removing main body (5) is installed at the bottom of the cylinder (411), the water removing main body (5) comprises a cylinder (501), a push rod (502) and a connecting plate (503), the push rod (502) is installed at the output end of the top of the cylinder (501), the push rod (502) and the push-pull rod (412) are connected in an integrated manner, the connecting plate (503) is fixedly installed at the top of the cylinder (501), and the connecting plate (503) is fixedly installed on the end face of the bottom of the cylinder (411).

7. The urban road ponding remover according to claim 6, characterized in that the water removing body (5) further comprises a downcomer (504), a guide groove (505) and a V-shaped member (506), the downcomer (504) is arranged on both sides of the connecting plate (503) in a penetrating manner, the guide groove (505) is arranged in the middle of the front face of the connecting plate (503), the V-shaped member (506) is slidably mounted in the middle of the guide groove (505), and the cylinder (501) is in transmission connection with the V-shaped member (506) through the ejector rod (502).

8. The urban road ponding clearer according to claim 7, characterized in that, dewatering main body (5) still includes slip table (507), roller (508), embraces claw (509) and rotatory round pin (510), V word (506) bilateral symmetry fixed mounting has slip table (507), and slip table (507) inside slidable mounting has roller (508), roller (508) top fixed mounting embraces claw (509), and embraces claw (509) inboard and install rotatory round pin (510), it installs in connecting plate (503) top both sides through rotatory round pin (510) rotation to embrace claw (509).

9. The urban road ponding remover according to claim 8, wherein the water removing body (5) further comprises an extrusion plate (511), a fitting block (512) and a water chute (513), the extrusion plate (511) is installed at the bottom of the holding claw (509), a plurality of fitting blocks (512) are installed in the middle of the extrusion plate (511), the fitting blocks (512) are fitted with the prismatic groove (403) in positions and in shapes, the top side of the fitting blocks (512) is obliquely arranged, the water chute (513) is installed on the bottom side of the fitting blocks (512), and the water chute (513) is obliquely directed to the sewer pipe (504).

10. The urban road ponding remover according to claim 8, wherein the water removing body (5) further comprises a clamping plate (514) and a butt-joint groove (515), the clamping plate (514) is mounted at the top of the holding claw (509), the butt-joint groove (515) is symmetrically formed in the middle of the output end of the clamping plate (514), and the butt-joint groove (515) is formed in a size which is closely attached to the external shape of the driving end (402).

Technical Field

The invention relates to the technical field of urban roads, in particular to a ponding remover for an urban road.

Background

Roads are built according to the national technical standards and are connected among cities, villages and industrial and mining bases, and roads approved by the acceptance of highway administrative departments can have accumulated water at hollow positions on the roads in rainy days, so that the accumulated water is inconvenient for people to normally run on the roads and often needs to be cleaned.

Current urban road ponding clears away equipment, and common problem has: the existing urban road accumulated water removing work is mostly finished by sanitation workers or auxiliary equipment, dead angles exist in the removing work due to uneven accumulated water in the road, and the road environment is polluted again due to the fact that waste water after being removed is discharged without places.

Disclosure of Invention

The invention aims to provide a water collector for urban roads, which solves the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a ponding clearer for urban roads comprises a base and a retraction mechanism, guide rails are mounted on the end faces of the two sides of the base, the retraction mechanism is mounted inside the base and comprises a storage cavity, a lead screw, a shaft sleeve, a swing rod, a retraction plate, a rotating pin, a motor, a belt, a driven rod, a mounting seat and a rotary table, the lead screw penetrates through the storage cavity, the shaft sleeve is mounted in the middle of the lead screw in a meshed mode, the swing rod is rotatably mounted at the bottom of the shaft sleeve, the retraction plate is mounted at one end, away from the shaft sleeve, of the swing rod, the thickness of the retraction plate is identical to the depth of the storage cavity, the rotating pin is rotatably mounted on the inner side of the retraction plate, the motor is mounted on the left side of the bottom of the retraction plate, the belt is mounted on the front output end of the motor, the driven rod is mounted on the side, away from the output end of the motor, of the belt, the driven rod is provided with the mounting seat in the middle, the mounting seat is fixedly mounted on the right side of the bottom of the retraction plate, and the tail end of the output of the driven rod is rotatably provided with a turntable.

Preferably, the water absorption main body is installed on the back face of the rotary table and comprises a cylinder body, a driving end and a prismatic groove, the driving end is installed at the top of the cylinder body, the rotary table is in transmission connection with the cylinder body through the driving end, and the prismatic groove is formed in the circumferential face of the cylinder body.

Preferably, the main water absorption body further comprises a base plate and an expansion plate, the base plate is fixedly mounted at the bottom of the cylinder body, the expansion plate is slidably mounted at the top of the base plate, and the expansion plate is tightly attached to the inner wall of the prismatic groove.

Preferably, the main part that absorbs water still includes bolt and cavernosum, expansion board externally mounted has the bolt, and the cavernosum is installed to the bolt bottom, the cavernosum passes through the bolt and expands the board constitution and can dismantle the connection.

Preferably, the main water absorption body further comprises a connecting rod, a rotating plate, a sleeve, a cylinder and a push-pull rod, the connecting rod is rotatably mounted inside the expansion plate, the rotating plate is rotatably mounted at one end, away from the expansion plate, of the connecting rod, the rotating plate is fixedly mounted on the back of the rotating plate, the cylinder is arranged inside the sleeve, the sleeve is tightly attached to the cylinder in a sliding sleeved mode, the push-pull rod penetrates through the cylinder, and the push-pull rod penetrates through the cylinder and is in transmission connection with the sleeve.

Preferably, the cylinder bottom is installed the dewatering main part, just the dewatering main part includes cylinder, ejector pin and connecting plate, the ejector pin is installed to cylinder top output, and ejector pin and push-and-pull rod formula as an organic whole are connected, cylinder top fixed mounting has the connecting plate, and connecting plate fixed mounting is in cylinder bottom terminal surface.

Preferably, the dewatering main body further comprises a sewer pipe, a guide groove and a V-shaped piece, the sewer pipe is arranged on two sides of the connecting plate in a penetrating mode, the guide groove is formed in the middle of the front face of the connecting plate, the V-shaped piece is slidably mounted in the middle of the guide groove, and the air cylinder is in transmission connection with the V-shaped piece through an ejector rod.

Preferably, the dewatering main part still includes slip table, roller, embraces claw and rotatory round pin, V word spare bilateral symmetry fixed mounting has the slip table, and the inside slidable mounting of slip table has the roller, roller top fixed mounting embraces the claw, and embraces the claw inboard and install rotatory round pin, it rotates through rotatory round pin to embrace the claw and installs in connecting plate top both sides.

Preferably, the dewatering main body further comprises an extrusion plate, a conjunction block and a water guide groove, the extrusion plate is installed at the bottom of the holding claw, a plurality of conjunction blocks are installed in the middle of the extrusion plate, the conjunction blocks are matched with the prismatic grooves in the matching mode and in the shape, the side face of the top of each conjunction block is obliquely arranged, the water guide groove is formed in the side face of the bottom of each conjunction block, and the water guide groove is obliquely directed to the sewer pipe.

Preferably, the dewatering main body further comprises a clamping plate and a butt joint groove, the clamping plate is installed at the top of the holding claw, the butt joint groove is symmetrically formed in the middle of the output end of the clamping plate, and the butt joint groove is formed in the size and closely attached to the external shape of the driving end.

The invention provides a water accumulation remover for urban roads, which has the following beneficial effects: the urban road accumulated water remover aims at the phenomenon that dead angles exist in urban hollow pavement accumulated water cleaning, the water absorbing main body is endowed with the capability of adjusting the output angle through the retraction jack, the water absorbing main body is more free to cope with cleaning environments with different depths, especially for the flat pavement accumulated water, the water absorbing main body can replace a traditional suction head to finish cleaning work, in addition, the arrangement of a roller external output sponge body structure is adopted, the accumulated water is quickly absorbed, the subsequent quick cleaning and replacement are facilitated, the operation is simple, the maintenance is convenient, the urban road accumulated water remover is suitable for large-area popularization of urban environmental sanitation work, and the applicability is very strong;

1. according to the urban road ponding cleaner, through the arrangement of the retraction jack, a user moves the urban road ponding cleaner to a ponding road surface to be cleaned, the depth and the penetrating angle of a ponding position are known in advance through measurement, the retraction jack is started, the user drives the lead screw penetrating through the inside of the storage cavity to rotate through the rocker, the rotating stroke of the lead screw drives the shaft sleeve engaged and mounted in the middle of the storage cavity to transversely displace, the shaft sleeve is slidably mounted in the guide rails mounted on two sides of the base, the transverse displacement stroke of the shaft sleeve is limited by the guide rails, the retraction plate is originally stored in the storage cavity, the inner end face of the retraction plate is rotatably mounted on the side face of the base through the rotating pin, the shaft sleeve drives the retraction plate to rotate and unfold through the oscillating bar rotatably mounted at the bottom, the motor drives the driven rod to rotate in the mounting seat through the belt, so that the driven rod is in rotary disc transmission towards the output end of the driven rod, and the retraction jack is arranged to store the water absorption main body in the storage cavity when the urban road ponding cleaner is in a moving state In the cavity, the water absorption device can prevent the water absorption device from being scratched and rubbed with the ground during movement, and is convenient for a user to adjust the probing depth and angle of the water absorption main body according to the actual use condition, so that accumulated water accumulated on the hollow road surface can be effectively absorbed, and the applicability is very strong.

2. The invention drives the cylinder body to rotate by arranging the water absorption main body, the rotary disc drives the cylinder body to drive the sponge body on the side end surface to fully contact with the accumulated water ground and finish water storage, after sufficient accumulated water is absorbed, a user starts the push-pull rod which is positioned in the cylinder body and extends from the top of the vertical through groove to realize the transmission of the sleeve, the sleeve is sleeved and attached outside the cylinder body, the rotating plate which is fixed outside the sleeve is synchronously lifted under the transmission of the push-pull rod, the rotating plate is connected with the expansion plate in the prismatic groove formed on the side end surface of the cylinder body by the rotatably installed connecting rod, the contraction of the expansion plate in the prismatic groove is finished under the guidance of the bottom chassis guide groove of the cylinder body, the sponge body naturally stretches and covers the outside of the cylinder body in the rotation of the cylinder body through the arrangement of the water absorption main body, the quick absorption of the accumulated water on the road surface can be realized by replacing the traditional suction head when the accumulated water on the flat road surface, the adsorption efficiency is higher.

3. According to the invention, through the arrangement of the prismatic groove component, the sponge body is arranged on the outer side of the expansion plate through the bolt, the sponge body naturally stretches and adheres to the circumferential surface of the cylinder body in a working state, a user can disassemble and replace the sponge body through simple operation, the sponge body is accommodated into the prismatic groove along with the retraction stroke of the expansion plate under the transmission of the rotating plate through the connecting rod, and the structure with small two ends and large middle section of the inner diameter of the prismatic groove enables the accumulated water to be naturally discharged under the action of extrusion force, so that the accumulated water in the sponge body is discharged in the process, but the accumulated water is not allowed to be directly discharged in an actual working scene, and the sponge body is required to be used for removing water.

4. By arranging the water removal main body, when the water absorption main body absorbs sufficient accumulated water, the air cylinder is started, the top of the air cylinder is connected with the ejector rod and the push-pull rod integrated with the ejector rod, the push-pull rod is driven, meanwhile, the push-pull rod is driven to push and extend the V-shaped piece which is arranged in the guide groove in a sliding way through the ejector rod, the guide groove is arranged in the middle of a connecting plate which is fixed at the bottom of the cylinder, in addition, sewer pipes for draining water are symmetrically arranged at two sides of the connecting plate, the holding claws are symmetrically and rotatably arranged at two sides of the top of the connecting plate through rotating pins, the rollers in the sliding tables at two sides of the top end of the V-shaped piece slide and move in the jacking stroke of the V-shaped piece to drive the holding claws to rotate around the rotating pin to close, the accumulated water discharged from the cavernous body under the extrusion action of the prismatic groove is stored into the synchronously folded holding claw through the water removing main body, so that the accumulated water is prevented from leaking to the ground again to cause secondary pollution, and the applicability is stronger.

5. According to the invention, through the arrangement of the holding claw component, the bottom of the holding claw is provided with the extrusion plate, the middle part of the holding claw is provided with a plurality of conjunction blocks corresponding to the arrangement positions of the prismatic grooves, the conjunction blocks are actively matched in the prismatic grooves to extrude the sponge body in the closing stroke of the holding claw, the residual moisture in the sponge body is extruded out under the action of external force, accumulated water is guided into the water guide grooves arranged on the side surfaces of the bottom of the conjunction blocks through the inclined surfaces of the output ends of the tops of the conjunction blocks, the water guide grooves are obliquely directed to the sewer pipes arranged on the two sides of the connecting plate, so that the accumulated water seeped out from the sponge body is guided and discharged into the sewer pipes to be collected, and the arrangement of the clamping plate on the top of the holding claw ensures that the butt grooves complete the sealing of the top of the cylinder body in the closing stroke of the holding claw, the accumulated water is prevented from seeping out from the top of the cylinder body, and the system design has stronger applicability.

Drawings

FIG. 1 is a schematic view of the overall structure of an urban road ponding remover according to the present invention;

FIG. 2 is a schematic view of a front view structure of a retraction mechanism for an urban road ponding remover according to the present invention;

FIG. 3 is a schematic view of the front view of the internal structure of a water absorption body of the urban road ponding remover;

FIG. 4 is a schematic view of a top view of a water absorption body of the urban road ponding remover according to the present invention;

FIG. 5 is an enlarged schematic view of the portion A in FIG. 4 for an urban road ponding remover according to the present invention;

FIG. 6 is a schematic diagram of a front view of a water removing body of the urban road ponding remover according to the present invention;

FIG. 7 is a schematic top view of a water removing body for an urban road ponding remover according to the present invention;

fig. 8 is a schematic perspective view of a squeeze plate member for an urban road ponding remover according to the present invention.

In the figure: 1. a base; 2. a guide rail; 3. a retraction mechanism; 301. a receiving cavity; 302. a screw rod; 303. a shaft sleeve; 304. a swing rod; 305. a plate is collected and placed; 306. a rotation pin; 307. a motor; 308. a belt; 309. a driven lever; 310. a mounting seat; 311. a turntable; 4. a water absorbent main body; 401. a barrel; 402. a driving end; 403. a prismatic groove; 404. a chassis; 405. an expansion plate; 406. a bolt; 407. a sponge body; 408. a connecting rod; 409. rotating the plate; 410. a sleeve; 411. a cylinder; 412. a push-pull rod; 5. dewatering the main body; 501. a cylinder; 502. a top rod; 503. a connecting plate; 504. a sewer pipe; 505. a guide groove; 506. a V-shaped piece; 507. a sliding table; 508. a roller; 509. embracing a claw; 510. a rotation pin; 511. a pressing plate; 512. fitting blocks; 513. a water chute; 514. a clamping plate; 515. and (4) butting the grooves.

Detailed Description

In a first embodiment, referring to fig. 1 to 8, the present invention provides a technical solution: the guide rails 2 are arranged on the end surfaces of two sides of the base 1, the retraction mechanism 3 is arranged in the base 1, the retraction mechanism 3 comprises a containing cavity 301, a screw rod 302, a shaft sleeve 303, a swing rod 304, a retraction plate 305, a rotating pin 306, a motor 307, a belt 308, a driven rod 309, an installation seat 310 and a turntable 311, the screw rod 302 penetrates through the containing cavity 301, the shaft sleeve 303 is arranged in the middle of the screw rod 302 in a meshed mode, the swing rod 304 is rotatably arranged at the bottom of the shaft sleeve 303, the retraction plate 305 is arranged at one end, away from the shaft sleeve 303, of the swing rod 304, the thickness of the retraction plate 305 is matched with the depth of the containing cavity 301, the rotating pin 306 is rotatably arranged on the inner side of the retraction plate 305, the motor 307 is arranged on the left side of the bottom of the retraction plate 305, the belt 308 is sleeved on the output end of the front side of the motor 307, the driven rod 309 is sleeved on the side of the belt 308, the driven rod 309 is provided with the installation seat 310, the installation seat 310 is fixedly arranged on the right side of the bottom of the retraction plate 305, the tail end of the output end of the driven rod 309 is rotatably provided with a turntable 311;

in the second embodiment, referring to fig. 3-5, the water absorbing body 4 is installed on the back of the rotating disc 311, the water absorbing body 4 includes a cylinder 401, a driving end 402 and a prismatic groove 403, the driving end 402 is installed on the top of the cylinder 401, the rotating disc 311 is in transmission connection with the cylinder 401 through the driving end 402, the prismatic groove 403 is opened on the circumferential surface of the cylinder 401, the water absorbing body 4 further includes a chassis 404 and an expansion plate 405, the chassis 404 is fixedly installed on the bottom of the cylinder 401, the expansion plate 405 is installed on the top of the chassis 404 in a sliding manner, the expansion plate 405 is tightly attached to the inner wall of the prismatic groove 403, the water absorbing body 4 further includes a bolt 406 and a sponge 407, the bolt 406 is installed outside the expansion plate 405, the sponge 407 is installed on the bottom of the bolt 406, the sponge 407 is in detachable connection with the expansion plate 405 through the bolt 406, the water absorbing body 4 further includes a connecting rod 408, a rotating plate 409, a sleeve 410, a column 411 and a push-pull rod 412, a connecting rod 408 is rotatably mounted in the expansion plate 405, a rotating plate 409 is rotatably mounted at one end, far away from the expansion plate 405, of the connecting rod 408, a sleeve 410 is fixedly mounted on the back of the rotating plate 409, a cylinder 411 is arranged in the sleeve 410, the sleeve 410 is tightly attached and slidably sleeved outside the cylinder 411, a push-pull rod 412 penetrates through the cylinder 411, and the push-pull rod 412 penetrates through the cylinder 411 and is in transmission connection with the sleeve 410;

the operation is as follows, the rotary disc 311 drives the cylinder 401 through the driving end 402 to transmit to the cylinder 401, the sponge 407 on the side end surface of the rotary disc 401 fully contacts with the water accumulation ground and stores water, after sufficient accumulated water is absorbed, the user starts the push-pull rod 412, the push-pull rod 412 is positioned in the vertical through groove in the cylinder 411 to extend to realize transmission to the sleeve 410, the sleeve 410 is sleeved and attached to the outside of the cylinder 411, the rotating plate 409 fixed on the outside of the sleeve 410 under the transmission of the push-pull rod 412 is lifted synchronously, the rotating plate 409 is connected with the expanding plate 405 in the prismatic groove 403 arranged on the side end surface of the cylinder 401 through the connecting rod 408 which is rotatably arranged, the expanding plate 405 is positioned in the prismatic groove under the guidance of the bottom chassis 404 of the cylinder 401, the sponge 407 is arranged outside the expanding plate 405 through the bolt 406, the sponge 407 is naturally expanded and attached to the circumferential surface 401 under the working state, the user can disassemble and replace the sponge 407 through simple operation, under the transmission of the rotating plate 409 through the connecting rod 408, the sponge 407 is accommodated into the prismatic groove 403 along with the retraction stroke of the expansion plate 405, the structure that the two ends of the inner diameter of the prismatic groove 403 are small and the middle section of the inner diameter of the prismatic groove is large enables accumulated water of the sponge 407 to be naturally discharged under the action of extrusion force, and through the arrangement of the water absorption main body 4, the sponge 407 naturally stretches and covers the outside of the cylinder 401 during the rotation of the cylinder 401, so that the quick absorption of the accumulated water on the road surface is facilitated, the cleaning work can be completed by replacing a traditional suction head when the accumulated water on the flat road surface is accumulated, and the absorption efficiency is higher;

in the third embodiment, referring to fig. 6-8, a water removing main body 5 is installed at the bottom of a cylinder 411, the water removing main body 5 includes a cylinder 501, a push rod 502 and a connecting plate 503, the push rod 502 is installed at the output end of the top of the cylinder 501, the push rod 502 is integrally connected with a push-pull rod 412, the connecting plate 503 is fixedly installed at the top of the cylinder 501, the connecting plate 503 is fixedly installed at the bottom end surface of the cylinder 411, the water removing main body 5 further includes a sewer pipe 504, a guide groove 505 and a V-shaped member 506, the sewer pipe 504 is penetrated through two sides of the connecting plate 503, the guide groove 505 is opened in the middle of the front surface of the connecting plate 503, the V-shaped member 506 is slidably installed in the middle of the guide groove 505, the cylinder 501 forms a transmission connection with the V-shaped member 506 through the push rod 502, the water removing main body 5 further includes a sliding table 507, a roller 508, a holding claw 509 and a rotating pin 510, sliding tables 507 are symmetrically and fixedly installed in two sides of the V-shaped member 506, and a roller 508 is slidably installed in the sliding table 507, the top of the roller 508 is fixedly provided with a holding claw 509, the inner side of the holding claw 509 is provided with a rotating pin 510, the holding claw 509 is rotatably arranged at two sides of the top of the connecting plate 503 through the rotating pin 510, the water removing main body 5 further comprises an extrusion plate 511, a fitting block 512 and a water guiding groove 513, the bottom of the holding claw 509 is provided with the extrusion plate 511, the middle of the extrusion plate 511 is provided with a plurality of fitting blocks 512, the fitting blocks 512 are matched with the prismatic grooves 403 in position and shape, the side surface of the top of the fitting blocks 512 is obliquely arranged, the side surface of the bottom of the fitting blocks 512 is provided with the water guiding groove 513, the water guiding groove 513 is obliquely pointed to the sewer pipe 504, the water removing main body 5 further comprises a clamping plate 514 and a butt joint groove 515, the top of the holding claw 509 is provided with the clamping plate 514, the middle of the output end of the clamping plate is symmetrically provided with the butt joint groove 515, and the butt joint groove 515 is provided with a size closely matched with the external shape of the driving end 402;

the concrete operation is as follows, when the water absorption main body 4 absorbs enough accumulated water, the cylinder 501 is started, the top of the cylinder 501 is connected with the push-pull rod 502 and the push-pull rod 412 which is integrated with the push-pull rod 502, the transmission of the push-pull rod 412 is realized, meanwhile, the push-pull rod 502 realizes the pushing transmission of the V-shaped piece 506 which is arranged in the guide groove 505 in a sliding way, the guide groove 505 is arranged in the middle of the connecting plate 503 which is fixed at the bottom of the column 411, in addition, the two sides of the connecting plate 503 are symmetrically provided with the down pipes 504 which are used for draining water, the two sides of the top of the connecting plate 503 are symmetrically and rotatably provided with the holding claws 509 through the rotating pins 510, the rollers 508 in the sliding ways 507 at the two sides of the top end of the V-shaped piece 506 are in a sliding way to move in the pushing stroke, the holding claws 509 are driven to rotate around the rotating pins 510 to close, the bottom of the holding claws 509 are provided with the extrusion plates 511, the positions which are provided with the wedging blocks 512 which are arranged at the positions corresponding to the prismatic grooves 403 in the middle of which are arranged, the prismatic grooves, the wedging blocks 512 are wedged in the prismatic grooves to extrude the sponge body 407 in the active stroke of the holding claws 509, the residual moisture in the sponge 407 is extruded under the action of external force, accumulated water is guided into a water guide groove 513 formed in the side face of the bottom of the conjunction block 512 through an inclined slope of an output end of the top of the conjunction block 512, the water guide groove 513 is inclined to point to the sewer pipes 504 formed in two sides of the connecting plate 503, the accumulated water seeped out from the sponge 407 is guided and drained into the sewer pipes 504 to be collected, and the clamping plate 514 at the top of the holding claw 509 is arranged, so that the top of the cylinder 401 is sealed by the butt joint groove 515 in the closing stroke of the holding claw 509, the accumulated water is prevented from seeping out from the top of the cylinder 401, the accumulated water drained out from the sponge 407 under the extrusion action of the prismatic groove 403 is timely stored into the holding claw 509 which is synchronously closed through the arrangement of the water removal main body 5, the accumulated water is prevented from seeping into the ground again to cause secondary pollution, and the applicability is stronger.

In conclusion, when the urban road accumulated water remover is used, a user moves the urban road accumulated water remover to an accumulated water road surface to be cleaned, the depth and the penetrating angle of the accumulated water are known in advance through measurement, the retraction mechanism 3 is started, the user drives the screw rod 302 penetrating through the inside of the accommodating cavity 301 to rotate through the rocker, the rotation stroke of the screw rod 302 drives the shaft sleeve 303 engaged with the middle part of the accommodating cavity to transversely displace, the shaft sleeve 303 is slidably installed in the guide rails 2 installed on the two sides of the base 1, the transverse displacement stroke of the shaft sleeve 303 is limited by the guide of the guide rails 2, the retraction plate 305 is originally accommodated in the accommodating cavity 301, the end surface at the inner side of the retraction plate is rotatably installed on the side surface of the base 1 through the rotating pin 306, the swinging rod 304 rotatably installed at the bottom of the shaft sleeve 303 drives the retraction plate 305 to rotatably expand, the motor 307 is installed at the bottom of the retraction plate 305, the motor 307 drives the rod 309 to rotate in the installation seat 310 through the belt 308, thereby transmitting to the rotating disc 311 at the output end of the driven rod 309, the rotating disc 311 transmits to the cylinder 401 through the driving end 402, the cylinder 401 is driven to rotate, the sponge 407 at the side end surface of the cylinder is fully contacted with the water accumulation ground and water accumulation is completed, after sufficient accumulated water is absorbed, the user starts the push-pull rod 412, the push-pull rod 412 is positioned in the vertical through groove top in the cylinder 411 to realize transmission to the sleeve 410, the sleeve 410 is sleeved and attached to the outside of the cylinder 411, the rotating plate 409 fixed on the outside of the sleeve 410 under the transmission of the push-pull rod 412 is lifted synchronously, the rotating plate 409 is connected with the expansion plate 405 in the prismatic groove 403 arranged at the side end surface of the cylinder 401 through the connecting rod 408 which is rotatably installed, the expansion plate 405 is positioned in the prismatic groove 403 to be contracted under the guidance of the chassis 404 at the bottom of the cylinder 401, the sponge 407 is installed outside the expansion plate 405 through the bolt 406, the sponge 407 naturally stretches and is attached to the circumferential surface 401 of the cylinder in the working state, the user can detach and replace the sponge 407 through simple operation, under the transmission of the rotating plate 409 through the connecting rod 408, the sponge 407 is accommodated into the prismatic groove 403 along with the retraction stroke of the expanding plate 405, the structure arrangement that the two ends of the inner diameter of the prismatic groove 403 are small and the middle section is large enables the accumulated water of the sponge 407 to be naturally discharged under the action of extrusion force, most of the accumulated water accumulated in the sponge 407 is discharged in the process, however, the accumulated water is not allowed to be directly discharged in the actual working scene, so the water removing main body 5 needs to be applied, when the water absorbing main body 4 absorbs enough accumulated water, the air cylinder 501 is started, the top of the air cylinder 501 is connected with the top rod 502 and the push-pull rod 412 which is of an integrated structure, the transmission of the push-pull rod 412 is realized, meanwhile, the top extension transmission of the V-shaped piece 506 which is slidably installed in the guide groove 505 is realized through the top rod 502, the guide groove 505 is opened in the middle of the connecting plate 503 which is fixed at the bottom of the cylinder body 411, in addition, sewer pipes 504 for draining water are symmetrically arranged on two sides of the connecting plate 503, holding claws 509 are symmetrically and rotatably arranged on two sides of the top of the connecting plate 503 through rotating pins 510, rollers 508 in sliding tables 507 on two sides of the top end of the V-shaped part 506 slide and move in a sliding mode in a jacking stroke of the V-shaped part 506 to drive the holding claws 509 to rotate and close around the rotating pins 510, extrusion plates 511 are arranged at the bottoms of the holding claws 509, a plurality of conjunction blocks 512 corresponding to the positions of the prismatic grooves 403 are arranged in the middles of the pressing plates 511, the conjunction blocks 512 are actively matched with the prismatic grooves 403 to extrude the sponge 407 in a closing stroke of the holding claws 509, residual water in the sponge 407 is extruded under the action of external force, accumulated water is guided into water guide grooves 513 arranged on the side surfaces of the bottoms of the conjunction blocks 512 through inclined surfaces of the top output ends of the conjunction blocks 512, the water guide grooves 513 are obliquely directed to the sewer pipes 504 arranged on two sides of the connecting plate 503, and the accumulated water seeped out of the sponge 407 is guided and discharged into the sewer pipes 504 to be collected, the clamping plate 514 at the top of the holding claw 509 is arranged, so that the butt joint groove 515 completes the sealing of the top of the cylinder 401 in the closing stroke of the holding claw 509, and accumulated water is prevented from permeating out from the top of the cylinder 401.