CN116158326A

CN116158326A - Road rainwater collecting and irrigating device

Info

Publication number: CN116158326A
Application number: CN202310205678.2A
Authority: CN
Inventors: 刘国耘; 刘超; 徐增力; 岳作文; 陆永; 杨大春; 胡旭
Original assignee: Chuzhou Kaishun Construction Engineering Co ltd
Current assignee: Chuzhou Kaishun Construction Engineering Co ltd
Priority date: 2023-03-06
Filing date: 2023-03-06
Publication date: 2023-05-26

Abstract

The invention discloses a road rainwater collecting and irrigating device, which relates to the technical field of municipal roads, and comprises a water collecting piece and a filter plate arranged in the water collecting piece, and further comprises: the top plate is vertically and slidably arranged in the water collecting piece, is driven by the driving mechanism to move up and down in the water collecting piece, and can dredge the filtering holes of the filtering plate when moving up; the scraper blade, it rises and self-adaptation change slip direction in order to clear up the filter surface along the roof, vertical slidable mounting has the sliding sleeve in the water collector, rotate on the sliding sleeve and install the worm wheel, worm wheel and roof fixed connection. The invention drives the top plate to move upwards so as to enable the protrusions on the top plate to eject sundries in the filter holes, and the upward movement of the top plate passively enables the scraping plate to scrape and clean the surface of the filter plate so as to avoid sundries accumulation, and passively enables the top plate to turn in the descending process of the top plate so as to enable the top plate to clean the filter holes at the other end.

Description

Road rainwater collecting and irrigating device

Technical Field

The invention relates to the technical field of municipal roads, in particular to a road rainwater collecting and irrigating device.

Background

Municipal road greening refers to planting trees, flowers and plants, road forests and the like at two sides of a road and in a separation belt so as to achieve the purposes of isolating noise, purifying air and beautifying the environment. As the artery of the urban infrastructure, the road greening occupies heavier weight, and not only can play a role in ecological protection to form green sheet isolation, but also can form urban linear green landscapes;

the utility model provides an invention patent of publication No. CN113632712B, name "an irrigation system is collected to town road rainwater", including seting up the drainage on the road, set up the filter in the drainage and be used for collecting the header tank of the water in the drainage, be provided with clearing device in the drainage, clearing device is including being used for absorbing the adsorption tube of debris and being used for providing the adsorption module of power for the adsorption tube, the adsorption module sets up in the drainage, the adsorption tube is installed on the adsorption module, the adsorption tube is provided with a plurality ofly on the adsorption module, adsorption tube and adsorption module intercommunication, and the adsorption tube sets up towards the filter. This application has the appearance that can reduce debris and can cause the jam of filter, and then makes the filter can carry out filterable effect to the rainwater.

Often need use the filter to filter the rainwater when collecting the rainwater, and the filtration hole of filter can appear blocking up the condition and make to be difficult to filter after filtering a period, and make rainwater trickling efficiency become low, cause road ponding easily, current partial technique has as above-mentioned patent shows, through ejecting the debris in the filtration hole, then suck away debris through adsorbing, but when adsorbing the clearance, debris often is moist and makes difficult to suck away, and debris is also adhered to on the filter under the dry condition easily for adsorb the clearance difficulty.

Disclosure of Invention

The invention aims to provide a road rainwater collecting and irrigating device which aims to solve the defects in the prior art.

In order to achieve the above object, the present invention provides the following technical solutions: an irrigation equipment is collected to road rainwater, includes water collecting piece and sets up the filter in it, still includes: the top plate is vertically and slidably arranged in the water collecting piece, is driven by the driving mechanism to move up and down in the water collecting piece, and can dredge the filtering holes of the filtering plate when moving up; and the scraping plate ascends along with the top plate and adaptively changes the sliding direction so as to clean the surface of the filter plate.

Preferably, a sliding sleeve is vertically and slidably arranged in the water collecting piece, a worm wheel is rotatably arranged on the sliding sleeve, the worm wheel is fixedly connected with the top plate, and a worm matched with the worm wheel is rotatably arranged on one side of the sliding sleeve; the inner wall of the water collecting piece is provided with a matching mechanism, and the travel of the sliding sleeve moving downwards drives the worm to be matched with the matching mechanism, so that the worm drives the worm wheel to rotate.

Preferably, a damper is arranged between the worm wheel and the top end of the sliding sleeve.

Preferably, the matching mechanism comprises a rack which is slidably arranged on the water collecting piece, and a gear meshed with the rack is coaxially and fixedly arranged at the end part of the worm; the sliding sleeve moves downwards to enable the rack to be passively meshed with the gear, so that the gear rotates through the gear.

Preferably, a connecting rod is fixedly installed on the sliding sleeve, a connecting block is fixedly installed on the connecting rod, a center shaft is rotatably installed on the connecting block, the worm is coaxially and fixedly installed on the center shaft, and the gear is coaxially and fixedly installed at one end, far away from the worm, of the center shaft.

Preferably, the connecting block is horizontally and slidably provided with a long rod; one side of the rack is fixedly provided with a sliding frame, one end of the sliding frame, which is close to the rack, is fixedly provided with a variable rod, and the long rod is abutted to the variable rod when moving downwards so that the variable rod drives the rack to be meshed with the gear.

Preferably, two upright rods are vertically and slidably arranged in the water collecting piece, a first guide frame and a second guide frame are respectively and fixedly arranged at one ends, close to each other, of the two upright rods, and guide grooves are formed in the first guide frame and the second guide frame; the scraper moves on the filter plate through the guidance of the guide groove to scrape the garbage on the filter plate.

Preferably, the water collecting piece is internally and horizontally provided with pressure receiving blocks, and one end of each pressure receiving block far away from the top plate is in one-to-one correspondence and is respectively abutted with the two vertical rods; in the process that the top plate moves towards the filter plate, the top plate presses the pressed block to enable the pressed block to move upwards against the vertical rods positioned on the same side of the top plate, so that the scraping plate is positioned in the guide groove of the first guide frame.

Preferably, each of the first guide frame and the second guide frame has a v shape.

Preferably, the guide groove includes a chute and a vertical groove, and the vertical grooves of the two guide grooves partially overlap.

In the technical scheme, the invention provides a road rainwater collecting and irrigating device, which has the following beneficial effects: the top plate is driven to move upwards to enable the protrusions on the top plate to eject sundries in the filter holes, the upward movement of the top plate enables the scraping plate to scrape and clean the surface of the filter plate passively, sundries are prevented from accumulating, the top plate is driven to turn in the descending process of the top plate, and accordingly the top plate can clean the filter holes at the other end.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.

Fig. 1 is a schematic perspective view of an embodiment of the present invention;

FIG. 2 is a schematic view of the bottom structure of FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic view of the right portion of FIG. 1 according to an embodiment of the present invention;

fig. 4 is a schematic view of a part of a structure of a mandrel according to an embodiment of the present invention;

fig. 5 is a schematic view of a part of a structure of a worm provided in an embodiment of the present invention;

fig. 6 is a schematic view of a part of a structure of a connection block according to an embodiment of the present invention;

fig. 7 is a schematic view of a part of the structure of a variable lever according to an embodiment of the present invention;

fig. 8 is a schematic view of a part of a structure of a first guide frame according to an embodiment of the present invention;

fig. 9 is a schematic view of a part of the structure of a vertical rod according to an embodiment of the present invention;

FIG. 10 is a schematic diagram of the structure at A in FIG. 2 according to an embodiment of the present invention;

FIG. 11 is a schematic diagram of the structure at B in FIG. 5 according to an embodiment of the present invention;

fig. 12 is a schematic structural diagram of a second embodiment of a filter board according to an embodiment of the present invention;

fig. 13 is a schematic view of a part of a structure of an outer frame according to an embodiment of the present invention.

Reference numerals illustrate:

1. a water collecting member; 1.1, avoiding a groove; 1.2, a groove is formed; 201. a motor; 202. a limit frame; 203. a sliding sleeve; 204. a worm wheel; 205. a connecting rod; 205.1, connecting blocks; 206. a center shaft; 207. a worm; 208. a gear; 209. a sliding frame; 209.1, a first spring; 210. a variable rod; 210.1, a first oblique side; 211. a rack; 212. a push rod; 213. a top plate; 31. a bump; 31.1, a third spring; 32. a long rod; 32.1, a convex rod; 33. a limit rod; 34. a fixed rod; 35. a rotating rod; 4. a filter plate; 5. a scraper; 5.1, a guide block; 61. pressing blocks; 61.1, locking groove; 61.2, a second bevel edge; 61.3, a second spring; 62. a vertical rod; 62.1, bottom springs; 62.2, through groove; 63. a first guide frame; 64. a second guide frame; 65. a guide groove; 66. a lock lever; 71. a water collection tank; 72. a water pump; 73. a spray pipe; 8. a collection box; 91. an outer frame; 92. an inner frame.

Detailed Description

In order to make the technical scheme of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings.

Referring to fig. 1 to 13, a road rainwater collecting and irrigating device includes a water collecting member 1 and a filter plate 4 disposed therein, and further includes: a top plate 213 vertically and slidably installed in the water collecting piece 1, wherein the top plate 213 is driven by a driving mechanism to move up and down in the water collecting piece 1, and the filtering holes of the filtering plate 4 are dredged when the top plate 213 moves up; a scraper 5 which rises following the top plate 213 and adaptively changes the sliding direction to clean the surface of the filter plate 4.

In another embodiment of the invention: a sliding sleeve 203 is vertically and slidably arranged in the water collecting piece 1, a worm wheel 204 is rotatably arranged on the sliding sleeve 203, the worm wheel 204 is fixedly connected with a top plate 213, and a worm 207 matched with the worm wheel 204 is rotatably arranged on one side of the sliding sleeve 203; the inner wall of the water collecting piece 1 is provided with a matching mechanism, and the downward moving stroke of the sliding sleeve 203 drives the worm 207 to be matched with the matching mechanism, so that the worm 207 drives the worm wheel 204 to rotate; wherein, a top rod 212 is fixedly installed on the worm wheel 204, the top end of the top rod 212 is fixedly connected with a top plate 213, a plurality of bulges are arranged on the top plate 213, the sizes of the bulges and the filter holes are matched, a driving mechanism comprises a motor 201 fixedly installed on the bottom wall of the water collecting piece 1, the motor 201 is a waterproof motor 201, the output end of the motor 201 is coaxially and fixedly provided with a screw rod, a sliding sleeve 203 is arranged on the screw rod in a threaded manner, the bottom wall of the water collecting piece 1 is fixedly provided with a limit frame 202, the sliding sleeve 203 is vertically inserted in the limit frame 202, the vertical sliding of the sliding sleeve 203 is limited by the limit frame 202, so that the sliding strip cannot rotate when being driven by the screw rod to move up and down, the motor 201 is started to drive the screw rod to rotate, the sliding sleeve 203 is driven by the screw rod to move up and down in the water collecting piece 1, and the vertical movement of the worm wheel 204 and the worm 207 is driven by the sliding sleeve 203; the water collecting piece 1 is internally provided with a drainage channel and an avoidance groove 1.1 communicated with the drainage channel, the size of the drainage channel is matched with the size of the filter plate 4, so that water on the road is filtered by the filter plate 4 through the drainage channel, wherein the top plate 213 is provided with a first position which is positioned in the drainage channel and opposite to the filter plate 4 and a second position which is positioned in the avoidance groove 1.1, when the top plate 213 moves to the first position through the sliding sleeve 203, protrusions on the top plate 213 are aligned with filter holes on the filter plate 4, the top plate 213 ascends again at the first position, so that the protrusions are jacked into the filter holes, the size of the top plate 213 is half of the size of the filter plate 4, and therefore, when the filter holes are cleaned again, half of the filter holes are cleaned, the influence of the filter holes is avoided from being completely blocked after all the protrusions are inserted, so that the protrusions push out sundries blocked in the filter holes upwards, and the filter plates 5 are cleaned conveniently; when the sliding sleeve 203 moves down at the second position, the matching mechanism is driven to match with the worm 207 so that the worm 207 rotates to drive the worm wheel 204 to rotate, and at this time, the worm wheel 204 drives the top plate 213 to rotate, so that the top plate 213 rotates by one hundred eighty degrees, and the top plate 213 cleans the other half of the filter holes of the filter plate 4.

In another embodiment of the invention: the scraper 5 comprises a frame, a filter screen is arranged on the frame, and when the scraper 5 moves on the filter plate 4 through the filter screen, water can pass through the filter screen, so that the influence on the movement caused by the increase of resistance due to the obstruction of water accumulation when the scraper moves towards one end is avoided;

in another embodiment of the invention: a damper is arranged between the worm wheel 204 and the top end of the sliding sleeve 203; wherein the worm wheel 204 and the sliding sleeve 203 are connected through a damping rotation shaft, so that the rotation between the worm wheel 204 and the sliding sleeve 203 cannot be arbitrarily performed, and the rotation can be performed only in a state that the worm 207 drives the worm wheel 204.

In another embodiment of the invention: the matching mechanism comprises a rack 211 which is slidably arranged on the water collecting piece 1, and a gear 208 which is meshed with the rack 211 is coaxially and fixedly arranged at the end part of the worm 207; the sliding sleeve 203 moves downwards to enable the rack 211 to be passively meshed with the gear 208, so that the gear 208 rotates through the gear 208; when the top plate 213 moves down from the first position to the second position, the top plate 213 is located in the avoidance groove 1.1, the avoidance groove 1.1 is a circular groove, so that the top plate 213 is not obstructed during rotation, when the sliding sleeve 203 moves down to drive the rack 211 to be close to the gear 208 passively until the rack is located at the engagement position, at this time, along with the continuous descending of the gear 208, the gear 208 is engaged with the rack 211, at this time, the gear 208 is rotated while descending through the rack 211, so as to drive the worm 207 to rotate, so that the holding rod drives the worm wheel 204 to rotate, so that the worm wheel 204 drives the top plate 213 to rotate.

In another embodiment of the invention: a connecting rod 205 is fixedly arranged on the sliding sleeve 203, a connecting block 205.1 is fixedly arranged on the connecting rod 205, a center shaft 206 is rotatably arranged on the connecting block 205.1, a worm 207 is coaxially and fixedly arranged on the center shaft 206, and a gear 208 is coaxially and fixedly arranged at one end of the center shaft 206 far away from the worm 207; the worm 207 is rotatably mounted on the connection block 205.1 through the center shaft 206, and the worm 207 is rotatably mounted on one side of the worm wheel 204 through the connection rod 205 so as to be matched with the worm wheel 204, wherein damping is also arranged between the center shaft 206 and the connection block 205.1, so that the center shaft 206 cannot rotate randomly.

In another embodiment of the invention: the connecting block 205.1 is horizontally and slidably provided with a long rod 32; a sliding frame 209 is fixedly arranged on one side of the rack 211, a variable rod 210 is fixedly arranged at one end, close to the rack 211, of the sliding frame 209, and when the long rod 32 moves downwards, the long rod 32 abuts against the variable rod 210 so that the variable rod 210 drives the rack 211 to be meshed with the gear 208; wherein the first inclined edge 210.1 is arranged on the variable rod 210, the height of the first inclined edge 210.1 is higher than that of the rack 211, when the connecting block 205.1 drives the gear 208 to move downwards, the long rod 32 moves downwards synchronously, and the long rod 32 extends out of one end of the connecting block 205.1, along with the downward movement of the connecting block 205.1, the long rod 32 is abutted to the first inclined edge 210.1 of the variable rod 210, at the moment, the first inclined edge 210.1 is pressed so as to enable the variable rod 210 to move towards the gear 208, at the moment, the rack 211 moves synchronously through the sliding frame 209 so as to enable the rack 211 to enter into an engaged position, then along with the continued descending of the gear 208, the gear 208 is meshed with the rack 211, and then the gear 208 is rotated so as to drive the middle shaft 206 to rotate, so that the worm 207 is rotated; the cross section of the sliding frame 209 is L-shaped, one end of the L-shaped sliding frame 209 is inserted into the water collecting piece 1, a first spring 209.1 is fixedly arranged between the sliding frame 209 and the inner wall of the water collecting piece 1, when the long rod 32 presses the variable rod 210 towards the direction of the gear 208 through the first inclined edge 210.1, the first spring 209.1 is stretched, and when the gear 208 moves below the gear rack 211 to separate, the top plate 213 completes one hundred eighty degrees of rotation so that the top plate 213 is positioned below the other half of the filter holes of the filter plate 4, the long rod 32 moves downwards from the surface of the variable rod 210 until the other half of the filter holes are separated from the variable rod 210, at this time, the first spring 209.1 is contracted to pull the sliding frame 209 to move away from the gear 208, and when the rack 211 is pulled by the sliding frame 209, the rack 211 is moved away from the meshing position, when the top plate 213 moves upwards along with the sliding sleeve 203, and when the gear 208 is not meshed with the rack 211, and thus the upward movement of the rack 211 is not affected; wherein, the end of the sliding frame 209 near the rack 211 is provided with a groove, when the first spring 209.1 pulls the sliding frame 209 to reset, the long rod 32 moves upwards along the original path, and the long rod 32 moves upwards from the gap between the variable rod 210 and the rack 211 due to the gap between the variable rod 210 and the rack 211, so that the movement of the long rod 32 is not affected.

In another embodiment of the invention: two upright rods 62 are vertically and slidably arranged in the water collecting piece 1, a first guide frame 63 and a second guide frame 64 are fixedly arranged at one ends, close to each other, of the two upright rods 62, and guide grooves 65 are formed in the first guide frame 63 and the second guide frame 64; the scraper 5 moves on the filter plate 4 by the guide of the guide groove 65 to scrape the garbage on the filter plate 4; wherein the scraper 5 is fixedly provided with a guide block 5.1, preferably, the guide block 5.1 is a circular block, wherein the size of the guide block 5.1 is matched with the size of the guide groove 65, the bottom end of the scraper 5 is in sliding connection with the filter plate 4, the filter plate 4 is vertically and slidably arranged in a drainage channel, when the top plate 213 pushes the filter plate 4 upwards, the filter plate 4 drives the scraper 5 on the filter plate to synchronously upwards move, the guide block 5.1 on the side wall of the scraper 5 is arranged in the guide groove 65, and along with the upwards movement of the scraper 5, the guide block 5.1 is guided by the guide groove 65 so as to move on the filter plate 4 towards the direction guided by the guide groove 65, and the bottom end of the scraper 5 cleans garbage on the filter plate 4 when moving; wherein the inner side wall of the water collecting piece 1 is embedded with the collecting box 8, when the scraping plate 5 moves on the filter plate 4 through the guide block 5.1 until the bottom ends of the filter plate 4 and the collecting box 8 are level, the scraping plate 5 approaches the collecting box 8 through the cooperation of the guide block 5.1 and the guide groove 65, so that garbage on the filter plate 4 is scraped into the collecting box 8; wherein the inner bottom wall of the collecting box 8 inclines downwards inwards, and the collecting box 8 is provided with a through hole far away from the lower part of one end of the opening, a filter screen is fixedly arranged on the inner wall of the through hole, garbage collected into the collecting box 8 is filtered by the filter screen, a drop groove 1.2 is formed in the water collecting piece 1, the drop groove 1.2 is communicated with the through hole, and filtered water in the collecting box 8 can be introduced into a drainage channel through the drop groove 1.2.

In another embodiment of the invention: the water collecting piece 1 is internally and horizontally provided with pressure receiving blocks 61, and one end of each pressure receiving block 61 far away from the top plate 213 is correspondingly abutted with two upright rods 62 respectively; in the process that the top plate 213 moves towards the filter plate 4, the top plate 213 presses the pressed block 61 to enable the pressed block 61 to move upwards against the upright rods 62 positioned on the same side of the top plate 213, so that the scraping plate 5 is positioned in the guide groove 65 of the first guide frame 63; wherein the pressure receiving block 61 is provided with a second inclined edge 61.2, one end of the second inclined edge 61.2 of the pressure receiving block 61 extends out of the water collecting piece 1, when the scraping plate 5 moves upwards from the first position, one end of the scraping plate, which is close to the pressure receiving block 61, is abutted against the second inclined edge 61.2, the second inclined edge 61.2 drives the pressure receiving block 61 to move towards the water collecting piece 1, the upright rod 62 is provided with a through groove 62.2, the through groove 62.2 is provided with a third inclined edge, when the pressure receiving block 61 moves towards the water collecting piece 1, one end of the pressure receiving block 61, which is close to the through groove 62.2, is abutted against the third inclined edge, and the third inclined edge is pressed to enable the upright rod 62 to move upwards, so that the upright rod 62 drives the first guide frame 63 or the second guide frame 64 on the upright rod 62 to move upwards; wherein a bottom spring 62.1 is fixedly arranged between the bottom end of the vertical rod 62 and the inner wall of the water collecting piece 1, when the pressed block 61 is removed from the through groove 62.2 through the bottom plate spring, the vertical rod 62 is reset, the section of the pressed block 61 is L-shaped, a second spring 61.3 is fixedly arranged between the short arm end of the L-shaped pressed block 61 and the water collecting piece 1, the second spring 61.3 is compressed when the pressed block 61 moves towards the water collecting piece 1, and the second spring 61.3 pushes the pressed block 61 to reset along with unlocking of the pressed block 61; the water collecting piece 1 is vertically and slidably provided with a lock rod 66 with an L-shaped section, the compression block 61 is provided with a lock groove 61.1 matched with the lock rod 66 in size, the bottom end of the lock rod 66 is fixedly provided with a connecting spring, when the compression block 61 is abutted by the top plate 213 to move towards the water collecting piece 1, the lock rod 66 is aligned with the lock groove 61.1 until the compression block 61 drives the upright rod 62 to rise to a designated position through the through groove 62.2, and the connecting spring pushes the lock rod 66 to be inserted into the lock groove 61.1, so that the top plate 213 is lifted above the compression block 61, and the compression block 61 is not pushed by the second spring 61.3 to reset; the connection block 205.1 is fixedly provided with a bump 31, the long rod 32 is horizontally and slidably arranged in the bump 31, and the long rod 32 moves downwards to drive the rack 211 to enter the engagement position and simultaneously is abutted against the short arm end of the lock rod 66, so that the lock rod 66 is driven to move downwards to enable the lock rod 66 to fall off from the lock groove 61.1, and at the moment, the pressed block 61 is unlocked and is reset through the second spring 61.3; wherein the bump 31 is provided with a long groove, the inner wall of the long groove is fixedly provided with a limit rod 33, the surface of the long rod 32 is fixedly provided with a square, the square is fixedly provided with a convex rod 32.1, one end of the square, which is far away from the limit rod 33, is fixedly provided with a third spring 31.1 between the inner wall of the long groove and the inner wall of the long groove, the inner wall of the water collecting piece 1 is fixedly provided with a fixed rod 34, the fixed rod 34 is trapezoidal, the top end of the fixed rod 34 is rotatably provided with a rotating rod 35, a tension spring is fixedly arranged between the lower surface of the rotating rod 35 and the inner wall of the upper end of the fixed rod 34, when the bump 31 drives the long rod 32 to move downwards, the convex rod 32.1 on the long rod 32 is abutted to the upper surface of the rotating rod 35, the upper surface inclined through the rotating rod 35 moves towards the left side of the fixed rod 34 by referring to fig. 11, the third spring 31.1 is compressed, the long rod 32 moves towards the lock rod 66, the long rod 32 extends above the short arm end of the lock rod 66, so that the long rod 32 can be contacted with the lock rod 66 and pulls the lock rod 66 to move downwards when moving downwards, the convex rod 32.1 moves below the fixed rod 34 when moving downwards along with the lock rod 66 out of the lock groove 61.1, the third spring 31.1 pushes the square block to drive the convex rod 32.1 to move towards the limit rod 33, the convex rod 32.1 is positioned on the right side of the fixed rod 34, the long rod 32 is removed from the short arm end surface of the lock rod 66, the lock rod 66 is prevented from being lowered all the time, the lock rod 66 is pushed to be lifted by the connecting spring when moving downwards along with the movement of the long rod 32, and the lock rod 66 is propped against the lower surface of the pressed block 61 when moving upwards along with the pressing block 61 is pushed to reset by the second spring 61.3, so that the lock rod is convenient to be inserted into the lock groove 61.1 next time; when the protruding rod 32.1 moves upwards from the end of the fixed rod 34 close to the limit rod 33, at this time, the end of the rotating rod 35 extending from the right side of the fixed rod 34 is jacked by the protruding rod 32.1 to rotate upwards, at this time, the upward movement of the protruding rod 32.1 is not limited, and the tension spring is lengthened along with the upward rotation of the rotating rod 35, and when the protruding rod 32.1 moves completely above the rotating rod 35, the tension spring pulls the rotating rod 35 to reset.

In another embodiment of the invention: the first guide frame 63 and the second guide frame 64 are each in a shape of a "; wherein, as shown in fig. 5, the guide groove 65 on the first guide frame 63 on the left upright 62 is arranged on the oblique side of the 'v', at this time, the scraper 5 moves towards the right through the cooperation of the guide groove 65 and the guide block 5.1, so when the top plate 213 is positioned on the left, the top plate 213 will abut against the pressing block 61 when moving upwards, so that the left pressing block 61 drives the left upright 62 to move upwards, at this time, the left upright 62 will drive the first guide frame 63 to move upwards, at this time, along with the upward movement of the first guide frame 63, the guide block 5.1 will only be placed in the guide groove 65 of the second guide frame 64, at this time, along with the upward movement of the filter plate 4, the scraper 5 will be made to move towards the left through the cooperation of the guide groove 65 in the guide block 5.1 and the second guide frame 64, at this time, the top plate 213 is positioned on the left, the garbage in the left filter hole of the filter plate 4 can be ejected, and the ejected garbage can be scraped into the collecting box 8 by cooperation with the scraper 5.

In another embodiment of the invention: the guiding groove 65 comprises a chute and a vertical groove, and the vertical grooves of the two guiding grooves 65 are partially overlapped; wherein as shown in fig. 8, when the first guide frame 63 moves up, the vertical groove portion on the first guide frame 63 will be located above the vertical groove of the second guide frame 64, and the guide block 5.1 will be located only in the vertical groove of the first guide frame 63, and as the squeegee 5 moves up, the guide block 5.1 enters the chute of the second guide frame 64 through the vertical groove portion on the second guide frame 64, and as the chute of the second guide frame 64 guides so that the squeegee 5 moves to the left; the water collecting device comprises a water collecting piece 1, a water collecting tank 71, a water pump 72, a spray pipe 73, an irrigation nozzle and an irrigation nozzle, wherein the water collecting tank 71 is arranged on one side of the water collecting piece 1, the water collecting tank 71 is communicated with the bottom end of the water collecting piece 1 through a connecting pipe, the water pump 72 is fixedly arranged at the bottom end of the water collecting tank 71, the input end of the water pump 72 stretches into the water collecting tank 71, the output end of the water pump 72 is communicated with the spray pipe 73, and the spray pipe 73 is communicated with the irrigation nozzle; the water in the water collecting piece 1 can be led into the water collecting tank 71 for collection through the connecting pipe, and when irrigation is needed, the water pump 72 is started to pump the water in the water collecting tank 71 for irrigation;

in another embodiment of the invention: the protrusion includes frame 91 and inside casing 92, inside casing 92 is right angle triangle shape specifically, and the right angle end of inside casing 92 passes through torsional spring rotation and installs on frame 91, and the filtration pore can be the rectangle form with frame 91 size looks adaptation, when roof 213 rises, roof 213 will drive the frame 91 on it and move up, move up along with frame 91 and will insert to the filtration pore in, and the inside casing 92 that stretches out this moment will be extruded by the bottom of filter 4 and rotate towards frame 91 inside and be received in frame 91, the edge of frame 91 is provided with the arc chamfer, thereby in the filtration pore is inserted to not influencing frame 91, and the top of frame 91 and the surface of inside casing 92 all fixed mounting have the filter screen, can be ejecting debris through the filter screen when frame 91 inserts in the filtration pore, when frame 91 is in filter 4 below, inside casing 92 can carry out the secondary filtration to the water that the filtration pore flows down through the torsional spring, wherein the filter screen that will keep in the messenger's inside casing 92 level as shown in fig. 13 when being in natural state.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that modifications may be made to the described embodiments in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive of the scope of the invention, which is defined by the appended claims.

Claims

1. The utility model provides an irrigation equipment is collected to road rainwater, includes water collector (1) and sets up filter (4) in it, its characterized in that still includes:

the top plate (213) is vertically and slidably arranged in the water collecting piece (1), the top plate (213) is driven by the driving mechanism to move up and down in the water collecting piece (1), and the filtering holes of the filtering plate (4) are dredged when the top plate moves up;

and a scraper (5) which rises along the top plate (213) and adaptively changes the sliding direction to clean the surface of the filter plate (4).

2. The road rainwater collecting and irrigating device according to claim 1, wherein a sliding sleeve (203) is vertically and slidingly installed in the water collecting piece (1), a worm wheel (204) is rotatably installed on the sliding sleeve (203), the worm wheel (204) is fixedly connected with a top plate (213), and a worm (207) matched with the worm wheel (204) is rotatably installed on one side of the sliding sleeve (203);

the inner wall of the water collecting piece (1) is provided with a matching mechanism, and the downward moving stroke of the sliding sleeve (203) drives the worm (207) to be matched with the matching mechanism, so that the worm (207) drives the worm wheel (204) to rotate.

3. A road stormwater collecting and irrigating apparatus as claimed in claim 2, wherein a damper is provided between said worm wheel (204) and the top end of said sliding sleeve (203).

4. A road stormwater collecting and irrigating apparatus as claimed in claim 3, wherein said dosing mechanism comprises a rack (211) slidably mounted on the water collecting member (1), and a gear (208) engaged with the rack (211) is fixedly mounted coaxially at an end of said worm (207);

the sliding sleeve (203) moves downwards to enable the rack (211) to be passively close to the gear (208) to be meshed, so that the gear (208) rotates through the gear (208).

5. The road rainwater collecting and irrigating device according to claim 4, wherein a connecting rod (205) is fixedly installed on the sliding sleeve (203), a connecting block (205.1) is fixedly installed on the connecting rod (205), a center shaft (206) is rotatably installed on the connecting block (205.1), the worm (207) is coaxially and fixedly installed on the center shaft (206), and the gear (208) is coaxially and fixedly installed at one end, far away from the worm (207), of the center shaft (206).

6. The road rainwater collecting and irrigating device according to claim 5, wherein a long rod (32) is horizontally slidably installed on the connecting block (205.1);

one side of the rack (211) is fixedly provided with a sliding frame (209), one end of the sliding frame (209) close to the rack (211) is fixedly provided with a variable rod (210), and when the long rod (32) moves downwards, the long rod is abutted to the variable rod (210) so that the variable rod (210) drives the rack (211) to be meshed with the gear (208).

7. The road rainwater collecting and irrigating device according to claim 2, wherein two upright rods (62) are vertically and slidably installed in the water collecting piece (1), a first guide frame (63) and a second guide frame (64) are fixedly installed at one ends, close to each other, of the two upright rods (62), and guide grooves (65) are formed in the first guide frame (63) and the second guide frame (64);

the scraper (5) moves on the filter plate (4) through the guide of the guide groove (65) to scrape the garbage on the filter plate (4).

8. The road rainwater collecting and irrigating device according to claim 7, wherein the water collecting piece (1) is horizontally and dynamically provided with pressure receiving blocks (61), and one end of each pressure receiving block (61) far away from the top plate (213) is correspondingly abutted against two upright rods (62) respectively;

in the process that the top plate (213) moves towards the filter plate (4), the top plate (213) presses the pressed block (61) so that the pressed block (61) abuts against the upright rods (62) positioned on the same side of the top plate (213) to move upwards.

9. The roadway rainwater collection and irrigation device of claim 7, wherein the first guide frame (63) and the second guide frame (64) are each in a v-shape.

10. A road stormwater collecting and irrigating apparatus as claimed in claim 9, wherein said guide groove (65) includes a chute and a vertical groove, and the vertical grooves of both guide grooves (65) partially coincide.