CN218990384U - Road rainwater collecting system - Google Patents

Abstract

The utility model provides a road rainwater collection system, which relates to the technical field of municipal roads and aims to solve the problem that after the water level in a collection box is reduced, the water level in a water storage tank is not prompted, and the road rainwater collection system comprises a storage mechanism, a water supply mechanism and an observation mechanism; a collecting mechanism is arranged on one side of the storage mechanism; the water supply mechanism is arranged in the storage mechanism, and is movably connected with the storage mechanism and the driving mechanism, and the driving mechanism is in sliding connection with the storage mechanism; observation mechanism swing joint is in storage mechanism, and observation mechanism includes: guide bar, floating plate and guide way, the guide bar is two sets of settings, and the inside of two sets of guide bars is equipped with the guide way respectively, guide bar fixed connection is in the inside of storage water tank, and two sets of guide bars set up relatively, and the one end and the guide bar swing joint of floating plate when the inside of storage water tank has liquid, and the floating plate can drive the slide bar and go up and down, observes the water level in the storage water tank through the slide bar.

Description

Road rainwater collecting system

Technical Field

The utility model relates to the technical field of municipal roads, in particular to a road rainwater collection system.

Background

The road belongs to one of municipal works, and the road still needs to be maintained after the construction is accomplished, and the both sides of road still are equipped with the bush simultaneously, and the bush needs to regularly water, guarantees the survival of trees.

The inventor finds that when the existing road rainwater collecting system is used, most rainwater collecting and irrigating systems need to discharge water through a water pump in the using process, but after the water level in the collecting box is reduced, the water level in the water storage tank is not prompted, and the water pump is easy to idle.

Disclosure of Invention

The utility model aims to provide a road rainwater collecting system, which solves the problem that the water level in a water storage tank is not prompted after the water level in the collecting tank is reduced in the prior art.

The purpose and the efficacy of the utility model of the road rainwater collection system are achieved by the following specific technical means:

a road rainwater collection system comprises a storage mechanism, a water supply mechanism and an observation mechanism; a collecting mechanism is arranged on one side of the storage mechanism; the water supply mechanism is arranged in the storage mechanism, and is movably connected with the storage mechanism and the driving mechanism, and the driving mechanism is in sliding connection with the storage mechanism; observation mechanism swing joint is in storage mechanism, and observation mechanism includes: guide bar, floating plate and guide way, the guide bar is two sets of settings, and the inside of two sets of guide bars is equipped with the guide way respectively, guide bar fixed connection is in the inside of storage water tank, and two sets of guide bars set up relatively, and the one end and the guide bar swing joint of floating plate.

Further, the storage mechanism further includes: a hollow groove, a sliding groove and a rotating groove; the hollow groove is arranged in the guide plate; the sliding groove and the rotating groove are respectively arranged above the water storage tank, one side of the rotating groove is arranged on the sliding groove, and the guide plate is provided with a certain gradient.

Further, the collection mechanism includes: the device comprises a connecting block, a cover plate, a joint block, a hinge, a filter screen and a through groove; the connecting block is fixedly connected to one side of the water storage tank, and the top of the connecting block is fixedly connected with a joint block; the cover plate is arranged at the top of the overlap block and is rotationally connected with the overlap block through a hinge; the filter screen is movably connected to the connecting block; the through groove is arranged at the bottom of the connecting block, and can filter liquid through the filter screen, so that sand and stone are prevented from entering the water storage tank.

Further, the water supply mechanism includes: the device comprises a connecting pipe, a spray head, a gear, a water pump and a bearing, wherein the spray head is fixedly connected to the top end of the connecting pipe, the gear and the bearing are fixedly connected to the bottom end of the connecting pipe, the bearing is arranged at the bottom of the gear, and the connecting pipe is rotationally connected with a water storage tank through a rotating groove; the bearing is fixedly connected to one end of the water pump; the water pump is fixedly connected in the accommodating groove.

Further, the driving mechanism includes: a fixed rod, a telescopic rod and a rack; two ends of the fixed rod are fixedly connected with the telescopic rod and the rack respectively; the telescopic rod is fixedly connected inside the guide plate through the hollow groove; the rack and the fixed rod are respectively connected with the guide plate in a sliding way through the sliding groove, the rack is meshed with the gear, and the telescopic rod adopts an electric lifting rod.

Further, the observation mechanism further includes: the floating plate is provided with a through hole and is in sliding connection with the connecting pipe through the through hole; the sliding rod is fixedly connected to one side of the floating plate, the sliding rod is in sliding connection with the water storage tank through the sliding groove, the density of the floating plate is greater than that of water, and the sliding rod is driven to lift when liquid exists in the water storage tank through the floating plate.

Compared with the prior structure, the utility model has the following advantages:

1. according to the storage mechanism, the liquid in the water storage tank can be guided through the guide plate, meanwhile, water can be collected through the accommodating groove, so that the liquid in the water storage tank can be conveniently emptied through the water pump, and meanwhile, a large amount of accumulated water is prevented from being stored in the water storage tank.

2. The collecting mechanism is arranged, so that larger objects can be prevented from entering the water storage tank through the cover plate, meanwhile, after sand and stone enter the cover plate, liquid can be further filtered through the filter screen, more sand and stone are prevented from being stored in the liquid, and more sundries in the liquid are prevented from damaging the water pump.

3. The driving mechanism can drive the connecting pipe to reciprocate through the telescopic rod, the rack and the gear, and the connecting pipe can spray the spray heads at multiple angles in the reciprocating motion process, so that the spray area of the spray heads is conveniently enlarged.

4. According to the arrangement of the observation mechanism, when liquid exists in the water storage tank, the floating plate can drive the sliding rod to lift, so that the liquid in the water storage tank can be observed through the sliding rod, and the water pump can still work continuously after the liquid in the water storage tank is prevented from being emptied.

Drawings

FIG. 1 is a schematic top view of the present utility model;

FIG. 2 is a schematic cross-sectional view of the present utility model;

FIG. 3 is a schematic view of the structure of the collecting mechanism of the present utility model;

FIG. 4 is a schematic cross-sectional view of a storage mechanism according to the present utility model;

FIG. 5 is a schematic view of the driving mechanism of the present utility model;

FIG. 6 is a schematic view of a water supply mechanism according to the present utility model;

FIG. 7 is a schematic view of the observation mechanism of the present utility model.

In the figure:

1. a storage mechanism; 101. a water storage tank; 102. a deflector; 103. a receiving groove; 104. a hollow groove; 105. a sliding groove; 106. a rotating groove;

2. a collection mechanism; 201. a connecting block; 202. a cover plate; 203. a splicing block; 204. a hinge; 205. a filter screen; 206. a through groove;

3. a water supply mechanism; 301. a connecting pipe; 302. a spray head; 303. a gear; 304. a water pump; 305. a bearing;

4. a driving mechanism; 401. a fixed rod; 402. a telescopic rod; 403. a rack;

5. an observation mechanism; 501. a guide rod; 502. a floating plate; 503. a guide groove; 504. a through hole; 505. a sliding rod.

Detailed Description

Embodiments of the present utility model will be described in detail below, examples of which are illustrated in the accompanying drawings and described below. While the utility model will be described in conjunction with the exemplary embodiments, it will be understood that the description is not intended to limit the utility model to the exemplary embodiments. On the contrary, the utility model is to cover not only the exemplary embodiment but also various alternatives, modifications, equivalents and other embodiments, which may be included within the spirit and scope of the utility model as defined by the appended claims.

Referring to fig. 1 to 7, a road rainwater collecting system comprises a storage mechanism 1, a water supply mechanism 3 and an observation mechanism 5; a collecting mechanism 2 is arranged on one side of the storage mechanism 1; the water supply mechanism 3 is arranged in the storage mechanism 1, the water supply mechanism 3 is movably connected with the storage mechanism 1 and the driving mechanism 4, and the driving mechanism 4 is slidably connected with the storage mechanism 1; the observation mechanism 5 is movably connected in the storage mechanism 1, and the observation mechanism 5 comprises: guide bar 501, floating plate 502 and guide way 503, guide bar 501 are two sets of settings, and the inside of two sets of guide bars 501 is equipped with guide way 503 respectively, guide bar 501 fixed connection is in the inside of storage water tank 101, and two sets of guide bars 501 set up relatively, and the one end and the guide bar 501 swing joint of floating plate 502.

As shown in fig. 4, the storage mechanism 1 further includes: a hollow groove 104, a sliding groove 105 and a rotating groove 106; the hollow groove 104 is arranged inside the guide plate 102; the sliding groove 105 and the rotating groove 106 are respectively arranged above the water storage tank 101, one side of the rotating groove 106 is arranged on the sliding groove 105, liquid inside the water storage tank 101 can be guided through the guide plate 102, meanwhile, water can be collected through the accommodating groove 103, the liquid inside the water storage tank 101 can be conveniently emptied through the water pump 304, and meanwhile, a large amount of accumulated water is prevented from being stored inside the water storage tank 101.

As shown in fig. 3, wherein the collecting mechanism 2 includes: connecting block 201, cover plate 202, overlap block 203, hinge 204, filter screen 205 and through groove 206; the connecting block 201 is fixedly connected to one side of the water storage tank 101, and the top of the connecting block 201 is fixedly connected with a lap joint block 203; the cover plate 202 is arranged on the top of the overlap block 203, and the cover plate 202 is rotationally connected with the overlap block 203 through a hinge 204; the filter screen 205 is movably connected to the connecting block 201; the through groove 206 is formed in the bottom of the connecting block 201, the cover plate 202 can prevent larger objects from entering the water storage tank 101, meanwhile, after sand and stone enter the cover plate 202, liquid can be further filtered through the filter screen 205, more sand and stone are prevented from being stored in the liquid, and the water pump 304 is prevented from being damaged by impurities in the liquid.

As shown in fig. 6, wherein the water supply mechanism 3 includes: the spray head device comprises a connecting pipe 301, a spray head 302, a gear 303, a water pump 304 and a bearing 305, wherein the spray head 302 is fixedly connected to the top end of the connecting pipe 301, the gear 303 and the bearing 305 are fixedly connected to the bottom end of the connecting pipe 301, the bearing 305 is arranged at the bottom of the gear 303, and the connecting pipe 301 is rotationally connected with the water storage tank 101 through a rotating groove 106; bearing 305 is fixedly connected to one end of water pump 304; the water pump 304 is fixedly connected to the inside of the accommodating groove 103.

As shown in fig. 5, wherein the driving mechanism 4 includes: a fixed rod 401, a telescopic rod 402 and a rack 403; two ends of the fixed rod 401 are respectively fixedly connected with the telescopic rod 402 and the rack 403; the telescopic rod 402 is fixedly connected to the inside of the guide plate 102 through the hollow groove 104; the rack 403 and the fixed rod 401 are respectively connected with the guide plate 102 in a sliding way through the sliding groove 105, the rack 403 is meshed with the gear 303, the connecting pipe 301 can be driven to reciprocate through the telescopic rod 402, the rack 403 and the gear 303, and the connecting pipe 301 can spray the spray heads 302 at multiple angles in the reciprocating motion process, so that the spray area of the spray heads 302 is conveniently enlarged.

As shown in fig. 7, the observation mechanism 5 further includes: the through holes 504 and the sliding rods 505, the floating plate 502 is provided with the through holes 504, and the floating plate 502 is in sliding connection with the connecting pipe 301 through the through holes 504; the sliding rod 505 is fixedly connected to one side of the floating plate 502, the sliding rod 505 is in sliding connection with the water storage tank 101 through the sliding groove 105, when liquid exists in the water storage tank 101, the floating plate 502 can drive the sliding rod 505 to lift, the liquid in the water storage tank 101 is conveniently observed through the sliding rod 505, and the water pump 304 still continues to work after the liquid in the water storage tank 101 is prevented from being emptied.

The working principle of the embodiment is as follows:

in this implementation, can store liquid through storage water tank 101, when liquid enters into storage water tank 101, can filter liquid through apron 202 and filter screen 205, prevent that the grit from entering into storage water tank 101's inside, apron 202 can overturn through hinge 204, be convenient for when clearing up filter screen 205, after liquid enters into storage water tank 101 inside, can collect liquid through guide plate 102, and make liquid enter into the inside of holding tank 103, and supply water to shower nozzle 302 through water pump 304, make shower nozzle 302 spray to the outside simultaneously, still can drive rack 403 through telescopic link 402 and slide during the spraying, rack 403 can drive connecting pipe 301 through gear 303 and rotate, and improve shower nozzle 302's spraying area, when spraying work goes on, still can observe the reserve of liquid through slide bar 505, slide bar 505 is fixed on floating plate 502, and floating plate 502 can go up and down according to the height on liquid surface.

The present utility model is not described in detail in the present application, and is well known to those skilled in the art.

In summary, although the present utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described above, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and other elements within the spirit and principles of the present utility model are intended to be included in the scope of the present utility model.

Claims (5)

1. A road rainwater collection system, characterized in that: comprises a storage mechanism (1), a water supply mechanism (3) and an observation mechanism (5); one side of the storage mechanism (1) is provided with a collecting mechanism (2); the water supply mechanism (3) is arranged in the storage mechanism (1), the water supply mechanism (3) is movably connected with the storage mechanism (1) and the driving mechanism (4), and the driving mechanism (4) is slidably connected with the storage mechanism (1); the observation mechanism (5) is movably connected in the storage mechanism (1), and the observation mechanism (5) comprises: guide rods (501), floating plates (502), guide grooves (503), through holes (504) and sliding rods (505), wherein the guide rods (501) are arranged in two groups, the guide grooves (503) are respectively arranged in the two groups of guide rods (501), the guide rods (501) are fixedly connected in the water storage tank (101), the two groups of guide rods (501) are oppositely arranged, one end of each floating plate (502) is movably connected with each guide rod (501), each floating plate (502) is provided with a through hole (504), and each floating plate (502) is in sliding connection with the connecting pipe (301) through the corresponding through hole (504); the sliding rod (505) is fixedly connected to one side of the floating plate (502), and the sliding rod (505) is in sliding connection with the water storage tank (101) through the sliding groove (105).

2. A roadway rainwater harvesting system as in claim 1, wherein: the storage mechanism (1) includes: the device comprises a water storage tank (101), a guide plate (102), a containing groove (103), a hollowed-out groove (104), a sliding groove (105) and a rotating groove (106); the inside of the water storage tank (101) is fixedly connected with a guide plate (102), one side of the guide plate (102) is provided with a containing groove (103), and a hollowed-out groove (104) is arranged in the guide plate (102); the sliding groove (105) and the rotating groove (106) are respectively arranged above the water storage tank (101), and the sliding groove (105) is arranged at one side of the rotating groove (106).

3. A roadway rainwater harvesting system as in claim 1, wherein: the collection mechanism (2) comprises: the device comprises a connecting block (201), a cover plate (202), a lap joint block (203), a hinge (204), a filter screen (205) and a through groove (206); the connecting block (201) is fixedly connected to one side of the water storage tank (101), and the top of the connecting block (201) is fixedly connected with the lap joint block (203); the cover plate (202) is arranged at the top of the overlap block (203), and the cover plate (202) is rotationally connected with the overlap block (203) through a hinge (204); the filter screen (205) is movably connected to the connecting block (201); the through groove (206) is arranged at the bottom of the connecting block (201).

4. A roadway stormwater collection system as claimed in claim 2, wherein: the water supply mechanism (3) comprises: the spray head device comprises a connecting pipe (301), a spray head (302), a gear (303), a water pump (304) and a bearing (305), wherein the spray head (302) is fixedly connected to the top end of the connecting pipe (301), the gear (303) and the bearing (305) are fixedly connected to the bottom end of the connecting pipe (301), the bearing (305) is arranged at the bottom of the gear (303), and the connecting pipe (301) is rotationally connected with a water storage tank (101) through a rotating groove (106); the bearing (305) is fixedly connected to one end of the water pump (304); the water pump (304) is fixedly connected in the accommodating groove (103).

5. A roadway stormwater collection system as claimed in claim 2, wherein: the drive mechanism (4) includes: a fixed rod (401), a telescopic rod (402) and a rack (403); two ends of the fixed rod (401) are respectively fixedly connected with the telescopic rod (402) and the rack (403); the telescopic rod (402) is fixedly connected inside the guide plate (102) through the hollow groove (104); the rack (403) and the fixed rod (401) are respectively connected with the guide plate (102) in a sliding way through the sliding groove (105), and the rack (403) is meshed with the gear (303).

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