CN113417190A

CN113417190A - Energy-saving water-collecting type park water-absorbing brick road

Info

Publication number: CN113417190A
Application number: CN202110712945.6A
Authority: CN
Inventors: 龙洋
Original assignee: Individual
Current assignee: Hubei Municipal Construction Group Co ltd
Priority date: 2021-06-25
Filing date: 2021-06-25
Publication date: 2021-09-21
Anticipated expiration: 2041-06-25
Also published as: CN113417190B

Abstract

The invention relates to the technical field of pavement construction, in particular to an energy-saving water-collecting type park water-absorbing brick road, which comprises a main frame, a conveying pipe, a trapezoidal supporting frame, a triangular plate, a filtering plate and the like; symmetrical formula fixed mounting has the conveyer pipe on the body frame, and the hookup has many pairs of trapezoidal carriage on the body frame, has a plurality of round holes on the trapezoidal carriage, fixedly connected with set-square between the adjacent trapezoidal carriage, and the hookup of trapezoidal carriage top has the filter. Through the cooperation of lifter, kickboard two and trapezoidal baffle and the device above that of big water yield discharge assembly for opening and shutting of increase trapezoidal baffle and filter screen one, make rivers faster flow out to the body frame from filter screen one, reach the effect to the quick drainage in water absorption brick road surface.

Description

Energy-saving water-collecting type park water-absorbing brick road

Technical Field

The invention relates to the technical field of pavement construction, in particular to an energy-saving water-collecting type park water-absorbing brick road.

Background

The park is a place for public to visit, view, rest, develop scientific culture, exercise physical activities and the like, has perfect facilities and public greenbelts with good greening environment, and has the functions of improving urban ecology, preventing fire, refuge and the like, so that the park needs to have higher design requirements on the road surface of the park, and the road surface drainage system is one of key detection objects in the road laying process.

If after raining, the accumulated water on the road surface is too much to be cleaned in time, and when people do exercise movement or walk on the road surface of the park, the phenomenon of slipping can easily occur, so that the human body is injured. At present, the road paved by the water absorption bricks is paved by adopting common water absorption bricks, and accumulated water cannot be quickly cleaned in heavy rain, so that the shoes are easily wetted when the accumulated water stays on the road and people can not conveniently pass in the rainy days.

Therefore, an energy-saving water-collecting type park water absorption brick road which can quickly clean accumulated water and sludge and is convenient for people to pass is urgently needed to be designed.

Disclosure of Invention

The energy-saving water-collecting park water-absorbing brick road can quickly clear accumulated water and sludge and facilitate passage of people.

The technical implementation scheme of the invention is as follows: the utility model provides an energy-conserving park brick road that absorbs water of type that catchments, which comprises a main frame, the conveyer pipe, trapezoidal carriage, the set-square, the filter, the hang plate, tentatively strike off subassembly and big water yield emission subassembly, symmetrical formula fixed mounting has the conveyer pipe on the body frame, the hookup has many pairs of trapezoidal carriage on the body frame, a plurality of round holes have on the trapezoidal carriage, fixedly connected with set-square between the adjacent trapezoidal carriage, the hookup in trapezoidal carriage top has the filter, filter and body frame hookup, the distributed hookup has the hang plate on the body frame, be equipped with tentatively strike off the subassembly on the set-square, it discharges the subassembly to be equipped with big water yield on the trapezoidal carriage.

Optionally, tentatively strike off the subassembly including filter screen one, go up the kicking bar, kicking plate one and strike off the pole, the hookup has filter screen one between set square and the hang plate, is connected with the kicking bar through sliding fit's mode on the set square, the hookup has kicking plate one on the kicking bar, and the hookup of kicking bar one end has the pole of striking off, strikes off pole and hang plate sliding type cooperation.

Optionally, the large-water-volume discharge assembly comprises a lifting rod, a floating plate II, a guide holder and a trapezoidal baffle, the lifting rod is connected to the trapezoidal support frame in a sliding fit mode, one end of the lifting rod is connected with the floating plate II, the guide holder is welded to the trapezoidal support frame, the trapezoidal baffle is connected to the lifting rod in a connected mode, the trapezoidal baffle is in limit fit with the two adjacent guide holders, and the trapezoidal baffle is in sliding fit with the filter screen I.

Optionally, the device also comprises a hydrodynamic force sludge filtering component, the main frame is provided with the hydrodynamic force sludge filtering component, the hydrodynamic force sludge filtering component comprises a rotating shaft, a water wheel, a rotating shaft, a transmission belt wheel, a belt I, a rotating gear, a guide plate, a pushing rack, a fixed guide rod, a movable tooth base, a compression spring, a pushing round rod, a reset spring, a sludge filtering frame and a sliding baffle, the main frame is connected with a pair of rotating shafts through bearings, the rotating shafts are connected with the water wheel in a transition fit manner, the main frame is rotatably connected with the pair of rotating shafts, the rotating shafts and the rotating shafts are both fixedly provided with the transmission belt wheel, the belt I is wound between the two transmission belt wheels, one end of the rotating shaft is connected with the rotating gear, the main frame is welded with the pair of guide plates, the guide plates are connected with the pushing rack in a sliding fit manner, the pushing rack penetrates through the guide plates, and is meshed with the rotating gear, the utility model discloses a movable rack, including fixed guide arm, push rack, push rod, fixed guide arm, the cover has compression spring on the fixed guide arm, the compression spring both ends are connected with fixed guide arm and movable tooth seat respectively, push rack one end hookup has the promotion round bar, promote round bar and body frame sliding type cooperation, the cover has reset spring on the promotion round bar, reset spring one end and the hookup of promotion round bar, the reset spring other end and body frame hookup, symmetrical fixedly connected with silt filters the frame on the body frame, sliding type is connected with slide damper on the silt filters the frame, slide damper and push rack fixed connection.

Optionally, still strike off the subassembly including the secondary, the symmetry is equipped with the secondary on the body frame and strikes off the subassembly, the secondary strikes off the subassembly including filter screen two, a mounting bracket, strike off the axle, the scraper blade, the transmission shaft, bevel gear, little band pulley, big band pulley and belt two, fixed mounting has filter screen two on the conveyer pipe, the symmetry formula is connected with the mounting bracket on the body frame, be connected with through transition fit's mode on the mounting bracket and strike off the axle, strike off epaxial fixed mounting and have the scraper blade, be connected with a pair of transmission shaft through the bearing on the body frame, strike off axle and transmission shaft all fixed mounting have bevel gear, two bevel gear intermeshing, fixed mounting has little band pulley on the transmission shaft, fixed mounting has big band pulley on the rotation axis, around there is belt two between big band pulley and the little band pulley.

Optionally, still including silt promotion subassembly, be equipped with silt promotion subassembly on the hydrodynamic force filtration silt subassembly, silt promotes the subassembly including fixed slope push rod, removal push pedal, loose wheel and extrusion spring, and the welding of slide damper one side has fixed slope push rod, and silt filters and is connected with the removal push pedal through sliding fit's mode on the frame, and the rotation type is connected with the loose wheel on the removal push pedal, removes push pedal and silt and filters and be connected with the extrusion spring between the frame.

Compared with the prior art, the invention has the following advantages:

through the cooperation of the upper floating rod, the first floating plate and the scraping rod three of the preliminary scraping assembly, sundries on the first filter screen are scraped, and the situation that the filter screen is blocked by the residual sundries to influence water flow is prevented.

Through the cooperation of lifter, kickboard two and trapezoidal baffle and the device above that of big water yield discharge assembly for opening and shutting of increase trapezoidal baffle and filter screen one, make rivers faster flow out to the body frame from filter screen one, reach the effect to the quick drainage in water absorption brick road surface.

Through the cooperation of the fixed inclined push rod of the sludge pushing assembly, the movable push plate, the movable wheel and the device on the movable wheel, the sludge and the sundries on the sludge filtering frame are pushed out, and the effect of quickly cleaning the sludge and the sundries is achieved.

Drawings

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

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

FIG. 3 is a schematic view of a first partial body structure according to the present invention.

FIG. 4 is a schematic view of a second partial body structure according to the present invention.

Fig. 5 is a perspective view of a third embodiment of the present invention.

Fig. 6 is an enlarged perspective view of the present invention a.

Fig. 7 is a perspective view of the large water discharge assembly of the present invention.

FIG. 8 is a schematic view of a first partial body configuration of the hydrodynamic sludge filtration module of the present invention.

FIG. 9 is a schematic view of a second partial body configuration of the hydrodynamic sludge filtration module of the present invention.

Fig. 10 is a perspective view of a third portion of the hydrodynamic sludge filtration assembly of the present invention.

Fig. 11 is a schematic perspective view of a secondary scraping assembly according to the present invention.

Fig. 12 is a perspective view of a sludge pushing assembly according to the present invention.

Fig. 13 is a schematic perspective view of a portion of a sludge pushing assembly of the present invention.

The meaning of the reference symbols in the figures: 1: main frame, 101: delivery pipe, 2: trapezoidal support frame, 21: set square, 3: filter plate, 4: inclined plate, 5: preliminary scraping assembly, 51: a first filter screen, 52: upper floating rod, 53: first floating plate, 54: scraping rod, 6: large water discharge assembly, 61: lifter, 62: a second floating plate, 63: guide holder, 64: trapezoidal baffle, 7: hydrodynamic filtration sludge assembly, 71: rotating shaft, 72: water wheel, 73: rotation axis, 74: drive pulley, 75: first belt, 76: rotating gear, 77: guide plate, 78: push rack, 79: fixed guide, 710: moving block, 711: compression spring, 712: push round bar, 713: return spring, 714: sludge filter frame, 715: slide damper, 8: secondary scraping assembly, 82: a second filter screen, 83: mounting frame, 84: scraping shaft, 85: blade, 86: drive shaft, 87: bevel gears, 88: small belt wheel, 89: large pulley, 810: a second belt, 9: sludge pushing assembly, 91: fixed tilt push rod, 92: moving push plate, 93: movable wheel, 94: compressing the spring.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained below by combining the specific drawings.

Example 1

An energy-saving water-collecting type park water-absorbing brick road is shown in figures 1-4 and comprises a main frame 1, a conveying pipe 101, trapezoidal supporting frames 2, triangular plates 21, filter plates 3, inclined plates 4, a primary scraping assembly 5 and a large-water-volume discharging assembly 6, wherein the conveying pipe 101 is symmetrically and fixedly installed on the main frame 1, a plurality of pairs of trapezoidal supporting frames 2 are connected to the main frame 1, a plurality of round holes are formed in the trapezoidal supporting frames 2, the triangular plates 21 are fixedly connected between the adjacent trapezoidal supporting frames 2, the filter plates 3 are connected to the tops of the trapezoidal supporting frames 2, the filter plates 3 are used for filtering large-scale garbage, the filter plates 3 are connected to the main frame 1, the inclined plates 4 are connected to the main frame 1 in a distributed mode, the inclined plates 4 are used for discharging water flow more quickly, the triangular plates 21 are provided with the primary scraping assembly 5, the primary scraping assembly 5 is used for scraping sundries on a filter screen 51, the large-water-volume discharging assembly 6 is arranged on the trapezoidal supporting frames 2, the large water discharge assembly 6 is used for enabling water flow to flow out of the main frame 1 from the first filter screen 51 more quickly, and the effect of quickly discharging water on the water absorption brick road surface is achieved.

Example 2

On the basis of embodiment 1, as shown in fig. 5 to 13, the preliminary scraping assembly 5 includes a first filter screen 51, a first floating rod 52, a first floating plate 53 and a scraping rod 54, the first filter screen 51 is connected between the triangular plate 21 and the inclined plate 4, the upper floating rod 52 is connected to the triangular plate 21 in a sliding fit manner, the first floating plate 53 is connected to the upper floating rod 52, the first floating plate 53 is used for driving the upper floating rod 52 and an upper device thereof to move, the scraping rod 54 is connected to the lower end of the upper floating rod 52, the scraping rod 54 is used for scraping impurities on the first filter screen 51, and the scraping rod 54 is in sliding fit with the inclined plate 4.

Big water volume discharges subassembly 6 including lifter 61, two 62 of kickboards, direction holder 63 and trapezoidal baffle 64, be connected with lifter 61 through sliding fit's mode on the trapezoidal carriage 2, two 62 of kickboards are connected to lifter 61 one end hookup, two 62 of kickboards are located trapezoidal carriage 2 insidely, two 62 of kickboards are used for driving lifter 61 and the device motion of going up, the welding has direction holder 63 on the trapezoidal carriage 2, the hookup has trapezoidal baffle 64 on the lifter 61, trapezoidal baffle 64 is with the spacing cooperation of two adjacent direction holders 63, direction holder 63 is used for spacing baffle 64, trapezoidal baffle 64 and the slidingtype cooperation of filter screen 51.

The main frame 1 is provided with the hydrodynamic sludge filtering component 7, the hydrodynamic sludge filtering component 7 comprises a rotating shaft 71, a water wheel 72, a rotating shaft 73, a driving belt wheel 74, a first belt 75, a rotating gear 76, a guide plate 77, a pushing rack 78, a fixed guide rod 79, a movable tooth holder 710, a compression spring 711, a pushing round rod 712, a reset spring 713, a sludge filtering frame 714 and a sliding baffle 715, the main frame 1 is connected with a pair of rotating shafts 71 through bearings, the rotating shaft 71 is positioned above the rotating shaft 73, the rotating shaft 71 is connected with the water wheel 72 in a transition fit manner, the main frame 1 is rotatably connected with the pair of rotating shafts 73, the rotating shafts 71 and the rotating shafts 73 are fixedly provided with the driving belt wheels 74, the first belt 75 is wound between the two driving belt wheels 74, one end of the rotating shaft 73 is connected with the rotating gear 76, and the rotating gear 76 is used for driving the pushing rack 78 to move, a pair of guide plates 77 are welded on the main frame 1, the guide plates 77 are used for guiding the pushing rack 78, the guide plates 77 are connected with the pushing rack 78 in a sliding fit mode, the pushing rack 78 penetrates through the guide plates 77, the pushing rack 78 is meshed with the rotating gear 76, one side of the pushing rack 78 is connected with a fixed guide rod 79, the fixed guide rod 79 is connected with a movable tooth holder 710 in a sliding fit mode, a compression spring 711 is sleeved on the fixed guide rod 79, two ends of the compression spring 711 are respectively connected with the fixed guide rod 79 and the movable tooth holder 710, the compression spring 711 is used for resetting the movable tooth holder 710, one end of the pushing rack 78 is connected with a pushing round rod 712, the pushing round rod 712 is in sliding fit with the main frame 1, a reset spring 713 is sleeved on the pushing round rod 712, one end of the reset spring 713 is connected with the pushing round rod 712, the other end of the reset spring 713 is connected with the main frame 1, the reset spring 713 is used for resetting the pushing round rod 712 and the upper device thereof, the main frame 1 is symmetrically and fixedly connected with a sludge filtering frame 714, the sludge filtering frame 714 is connected with a sliding baffle 715 in a sliding manner, and the sliding baffle 715 is fixedly connected with the pushing rack 78.

The garbage scraping machine further comprises a secondary scraping component 8, the secondary scraping component 8 is symmetrically arranged on the main frame 1, the secondary scraping component 8 comprises a second filter screen 82, a mounting frame 83, a scraping shaft 84, a scraping plate 85, a transmission shaft 86, a bevel gear 87, a small belt pulley 88, a large belt pulley 89 and a second belt 810, the second filter screen 82 is fixedly arranged on the conveying pipe 101, the second filter screen 82 is used for filtering small garbage, the mounting frame 83 is symmetrically connected on the main frame 1, the scraping shaft 84 is connected on the mounting frame 83 in a transition fit mode, the scraping shaft 84 is fixedly installed with the scraping plate 85, the scraping plate 85 is used for scraping garbage on the second filter screen 82, the main frame 1 is connected with a pair of transmission shafts 86 through bearings, the scraping shaft 84 and the transmission shaft 86 are both fixedly installed with the bevel gears 87, the two bevel gears 87 are mutually meshed, the small belt pulley 88 is fixedly installed on the transmission shaft 86, the large belt pulley 89 is fixedly installed on the rotation shaft 73, a second belt 810 is wound between the large belt wheel 89 and the small belt wheel 88.

Still promote the subassembly 9 including silt, be equipped with silt promotion subassembly 9 on hydrodynamic force filtration silt subassembly 7, silt promotes subassembly 9 including fixed slope push rod 91, remove push pedal 92, movable wheel 93 and extrusion spring 94, the welding of slide baffle 715 one side has fixed slope push rod 91, fixed slope push rod 91 is used for promoting movable wheel 93 and device on it, be connected with through sliding fit's mode on the silt filters frame 714 and remove push pedal 92, it is inside that removal push pedal 92 is located silt filters frame 714, it is connected with movable wheel 93 to rotate the formula on the removal push pedal 92, it is connected with extrusion spring 94 between removal push pedal 92 and the silt filters frame 714, extrusion spring 94 is used for restoring to throne and removes push pedal 92.

The water absorption brick road is arranged in the park, so that the park road is convenient to drain water. When raining, because discharge is less, rivers flow into 2 round holes on the trapezoidal carriage from filter 3, and on the 2 round holes of rethread trapezoidal carriage flowed into hang plate 4, make rivers flow into body frame 1 from filter screen 51 through the effect of hang plate 4 at last, subsequent discharge of being convenient for.

When the rainfall is increaseed, rivers can not flow from filter screen 51 fast, the water level on the hang plate 4 can rise gradually, and then drive a kickboard 53 and go up device upward movement, it drives and strikes off the debris of pole 54 on filter screen 51 to go up the kickboard 52 upward movement, it blocks up the passing through of filter screen 51 influence rivers to prevent to have remaining debris, when the water level rises to two 62 contacts of kickboard, make two 62 of kickboards and device upward movement on them, lifter 61 upward movement drives trapezoidal baffle 64 upward movement, and then increase the distance that opens and shuts between trapezoidal baffle 64 and the filter screen 51, make rivers faster flow into the body frame 1 from filter screen 51, reach the effect of the quick drainage in suction brick road surface, thereby be convenient for better the passing of people.

When water flow moves to a proper position, the water wheel 72 and the device on the water wheel are pushed by the water flow to rotate anticlockwise so as to drive the rotating shaft 71 and the device on the rotating shaft to rotate anticlockwise, the rotating shaft 73 and the device on the rotating shaft are driven to rotate anticlockwise through the belt I75 so as to drive the rotating gear 76 to rotate, the pushing rack 78 and the device on the pushing rack are driven to move towards one side close to the conveying pipe 101, the reset spring 713 is compressed accordingly, when the pushing rack 78 moves to a proper position, the rotating gear 76 is in contact with the movable tooth holder 710, the compression spring 711 is repeatedly compressed and reset, the sliding baffle 715 and the sludge filtering frame 714 are closed, a small amount of water flow stays on the sludge filtering frame 714, and subsequent sludge and sundries cleaning is facilitated.

Promote rack 78 and drive fixed slope push rod 91 and movable wheel 93 contact when moving, fixed slope push rod 91 can promote to remove push pedal 92 and move to keeping away from slide baffle 715 one side direction, extrusion spring 94 is compressed thereupon, be convenient for subsequent operation, drive transmission shaft 86 and the last device rotation through two belts 810 when rotation axis 73 pivoted, and then drive through bevel gear 87 and strike off axle 84 and the last device and rotate, make scraper blade 85 rotate and scrape off silt filter frame 714 to the remaining debris on two 82 filter screens, make rivers more unobstructed flow from conveyer pipe 101.

When the water flow is completely discharged, the water flow does not push the water wheel 72 to rotate, the push rack 78 and the devices on the push rack can move and reset towards the direction away from one side of the conveying pipe 101 under the action of the reset spring 713, so that the sliding baffle 715 is not closed with the sludge filtering frame 714 any more, the rotating gear 76 is not contacted with the moving tooth holder 710 any more, the compression spring 711 and the devices on the compression spring are recovered to the normal state, the fixed inclined push rod 91 is not contacted with the movable wheel 93 any more, the moving push plate 92 moves towards the direction close to one side of the sliding baffle 715 under the action of the extrusion spring 94 to push out sludge and sundries on the sludge filtering frame 714, and the effect of rapidly cleaning the sludge and the sundries is achieved.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a park brick road that absorbs water of energy-conserving water collection type which characterized by: including body frame (1), conveyer pipe (101), trapezoidal carriage (2), set-square (21), filter (3), hang plate (4), tentatively strike off subassembly (5) and big water content emission subassembly (6), symmetrical formula fixed mounting has conveyer pipe (101) on body frame (1), the hookup has many to trapezoidal carriage (2) on body frame (1), a plurality of round holes have on trapezoidal carriage (2), fixedly connected with set-square (21) between adjacent trapezoidal carriage (2), filter (3) have in the hookup of trapezoidal carriage (2) top, filter (3) and body frame (1) hookup, distributed hookup has hang plate (4) on body frame (1), be equipped with tentatively strike off subassembly (5) on set-square (21), it discharges subassembly (6) to be equipped with big water content on trapezoidal carriage (2).

2. An energy-saving water-collecting type park water-absorbing brick road as claimed in claim 1, which is characterized in that: preliminary scraping component (5) is including filter screen (51), go up kickboard (52), kickboard (53) and scrape off pole (54), the hookup has filter screen (51) between set-square (21) and hang plate (4), be connected with kickboard (52) through sliding fit's mode on set-square (21), it has kickboard (53) to link up on kickboard (52), it has scraping pole (54) to go up kickboard (52) one end hookup, scrape off pole (54) and hang plate (4) sliding type cooperation.

3. An energy-saving water-collecting type park water-absorbing brick road as claimed in claim 2, which is characterized in that: big water yield discharges subassembly (6) is including lifter (61), kickboard two (62), direction holder (63) and trapezoidal baffle (64), be connected with lifter (61) through sliding fit's mode on trapezoidal carriage (2), lifter (61) one end hookup has kickboard two (62), the welding has direction holder (63) on trapezoidal carriage (2), hookup has trapezoidal baffle (64) on lifter (61), trapezoidal baffle (64) and two adjacent direction holders (63) spacing coordination, trapezoidal baffle (64) and filter screen one (51) sliding type cooperation.

4. An energy-saving water-collecting type park water-absorbing brick road as claimed in claim 3, which is characterized in that: the sludge filtering machine is characterized by further comprising a hydrodynamic force sludge filtering component (7), the hydrodynamic force sludge filtering component (7) is arranged on the main frame (1), the hydrodynamic force sludge filtering component (7) comprises a rotating shaft (71), a water wheel (72), a rotating shaft (73), a transmission belt wheel (74), a first belt (75), a rotating gear (76), a guide plate (77), a pushing rack (78), a fixed guide rod (79), a movable tooth holder (710), a compression spring (711), a pushing round rod (712), a reset spring (713), a sludge filtering frame (714) and a sliding baffle (715), the main frame (1) is connected with a pair of rotating shafts (71) through bearings, the rotating shafts (71) are connected with the water wheel (72) in a transition fit mode, the main frame (1) is rotatably connected with a pair of rotating shafts (73), and the rotating shafts (71) and the transmission belt wheel (74) are fixedly arranged on the rotating shafts (71) and the rotating shafts (73), a first belt (75) is wound between the two driving pulleys (74), one end of a rotating shaft (73) is connected with a rotating gear (76), a pair of guide plates (77) are welded on the main frame (1), a pushing rack (78) is connected on the guide plates (77) in a sliding fit mode, the pushing rack (78) penetrates through the guide plates (77), the pushing rack (78) is meshed with the rotating gear (76), a fixed guide rod (79) is connected on one side of the pushing rack (78), a movable tooth holder (710) is connected on the fixed guide rod (79) in a sliding fit mode, a compression spring (711) is sleeved on the fixed guide rod (79), two ends of the compression spring (711) are respectively connected with the fixed guide rod (79) and the movable tooth holder (710), a pushing round rod (712) is connected on one end of the pushing rack (78), the pushing round rod (712) is in a sliding fit with the main frame (1), a reset spring (713) is sleeved on the pushing round rod (712), one end of a return spring (713) is connected with the pushing round rod (712), the other end of the return spring (713) is connected with the main frame (1), sludge filter frames (714) are symmetrically and fixedly connected to the main frame (1), sliding baffles (715) are connected to the sludge filter frames (714) in a sliding mode, and the sliding baffles (715) are fixedly connected with the pushing racks (78).

5. An energy-saving water-collecting type park water-absorbing brick road as claimed in claim 4, which is characterized in that: the scraper conveyor also comprises a secondary scraping component (8), the secondary scraping component (8) is symmetrically arranged on the main frame (1), the secondary scraping component (8) comprises a second filter screen (82), a mounting frame (83), a scraping shaft (84), a scraper (85), a transmission shaft (86), a bevel gear (87), a small belt wheel (88), a large belt wheel (89) and a second belt (810), the second filter screen (82) is fixedly arranged on the conveying pipe (101), the mounting frame (83) is symmetrically connected on the main frame (1), the scraping shaft (84) is connected on the mounting frame (83) in a transition fit mode, the scraper (85) is fixedly arranged on the scraping shaft (84), a pair of transmission shafts (86) are connected on the main frame (1) through bearings, the bevel gears (87) are fixedly arranged on the scraping shaft (84) and the transmission shaft (86), the two bevel gears (87) are mutually meshed, the small belt wheel (88) is fixedly arranged on the transmission shaft (86), a large belt wheel (89) is fixedly arranged on the rotating shaft (73), and a second belt (810) is wound between the large belt wheel (89) and the small belt wheel (88).

6. An energy-saving water-collecting type park water-absorbing brick road as claimed in claim 5, which is characterized in that: still including silt promotion subassembly (9), be equipped with silt promotion subassembly (9) on hydrodynamic force filtration silt subassembly (7), silt promotion subassembly (9) are including fixed slope push rod (91), remove push pedal (92), loose wheel (93) and extrusion spring (94), the welding of slide damper (715) one side has fixed slope push rod (91), be connected with through sliding fit's mode on silt filters frame (714) and remove push pedal (92), it is connected with loose wheel (93) to rotate the formula on removing push pedal (92), it filters and is connected with extrusion spring (94) between frame (714) to remove push pedal (92) and silt.