CN220521530U - Afforestation arbor watering is with retaining system - Google Patents

Abstract

The utility model relates to a water storage system's technical field, to the lower problem of natural water source utilization ratio such as rainwater when traditional afforestation arbor waters, put forward a afforestation arbor watering and use water storage system, including buried underground header tank and retaining deposit box, header tank open-top sets up, header tank open-top can dismantle and be connected with the grid board, header tank and retaining deposit box are linked together through the connecting pipe, install first suction pump on the connecting pipe, retaining deposit box intercommunication has the suction pipe, install the second suction pump on the suction pipe; a filter plate is also erected in the water collecting tank; the connecting pipe is positioned below the filter plate at the communicating position of the connecting pipe and the water collecting tank. The application has the effect that is convenient for collect the rainwater and be used as afforestation arbor watering water.

Description

Afforestation arbor watering is with retaining system

Technical Field

The application relates to the field of water storage systems, in particular to a water storage system for watering landscaping trees.

Background

When the garden building is designed, various greening trees are often distributed inside the garden building to promote the overall impression of the garden building. In the actual use process of the subsequent garden building, in order to enable the landscape arbor to normally survive, the greening arbor in the garden building needs to be irrigated and maintained regularly.

At present, tap water is usually required to be used as a watering water source when watering and maintaining landscaping trees, and natural water sources such as rainwater are not fully utilized in areas with abundant rainwater.

Disclosure of Invention

In order to realize using the rainwater as the watering water source of watering afforestation arbor, promote the utilization ratio to natural water source such as rainwater, this application provides a water storage system for afforestation arbor watering.

The application provides a water storage system for afforestation arbor watering adopts following technical scheme:

the water storage system for landscaping arbor irrigation comprises a water collection tank and a water storage sedimentation tank which are buried underground, wherein an opening at the top of the water collection tank is detachably connected with a grid plate, the water collection tank is communicated with the water storage sedimentation tank through a connecting pipe, a first water suction pump is arranged on the connecting pipe, the water storage sedimentation tank is communicated with a water suction pipe, and a second water suction pump is arranged on the water suction pipe; a filter plate is also erected in the water collecting tank; the connecting pipe is positioned below the filter plate at the communicating position of the connecting pipe and the water collecting tank.

By adopting the technical scheme, in rainy days, rainwater flows into the water collecting tank through the grating plate, is pumped into the water storage sedimentation tank through the first water pump for sedimentation, and when the arbor is irrigated and greened, the irrigating equipment is communicated with the water pumping pipe, and the rainwater in the water storage sedimentation tank is pumped into the irrigating equipment through the second water pump for irrigating the arbor by the irrigating equipment, so that the utilization rate of the rainwater is improved, and water resources are saved better; through setting up the filter, debris such as leaf that is convenient for filter and carry in the rainwater reduce debris and pile up in the header tank bottom in a large number, cause the condition of connecting pipe jam.

Preferably, a first annular step groove is formed in the edge of the opening at the top of the water collection tank, and the grating plate is embedded into the first annular step groove.

Through adopting above-mentioned technical scheme, imbed the grid board to first annular ladder groove, alright realize setting up the grid board firmly at the header tank top, be convenient for the grid board dismouting in the header tank.

Preferably, a plurality of connecting rods are arranged between the grating plates and the filter plates, and two ends of each connecting rod are respectively connected with the grating plates and the filter plates.

Through adopting above-mentioned technical scheme, on the one hand realize locating the filter plate frame in the header tank, on the other hand, when follow-up removing the grid board from the header tank, the grid board accessible connecting rod is taken the filter plate outside the header tank together, the debris of filtering on the filter plate of being convenient for clearance.

Preferably, the periphery of the connecting rod is provided with a plurality of hanging rods, and the hanging rods are obliquely upwards arranged in a direction away from the connecting rod.

By adopting the technical scheme, the hanging rod can be used for hanging large sundries such as garbage bags carried in part of rainwater, so that the situation that the filter plate is blocked due to the fact that the filter plate is quickly piled up with the large sundries is reduced.

Preferably, the bottom of the water storage sedimentation tank is also communicated with a sludge pipe, and a slurry pump is arranged on the sludge pipe.

Through adopting above-mentioned technical scheme, the accessible slush pump regularly can pump the mud that the water storage sedimentation tank bottom was deposited outside the water storage sedimentation tank, realizes the clearance to the sediment mud of water storage sedimentation tank bottom.

Preferably, the device further comprises an overhaul box buried underground, and the first water pump, the second water pump and the slurry pump are all arranged in the overhaul box; the maintenance box top opening is arranged, and a first sealing cover is detachably connected to the maintenance box top opening.

Through adopting above-mentioned technical scheme, first suction pump, second suction pump and slush pump can concentrate to accomodate in the maintenance incasement, reduce the occupation to ground space, when first suction pump, second suction pump and slush pump damage, the maintainer can open first sealed lid and get into the maintenance incasement and overhaul.

Preferably, one end of the connecting pipe extends into the water collection tank and extends to the bottom of the water collection tank.

Through adopting above-mentioned technical scheme, be convenient for first suction pump with the rainwater suction of header tank bottom to the retaining deposit box in carry out retaining deposit, reduce the rainwater of header tank bottom and can't cause extravagant condition in the suction to the retaining deposit box through first suction pump.

Preferably, the top of the water collecting tank is also communicated with an overflow pipe, the overflow pipe is higher than the connecting pipe, and the overflow pipe is communicated with the underground drainage pipe network.

Through adopting above-mentioned technical scheme, when rainfall is great, the unnecessary rainwater in the header tank of inflow can lead to the overflow pipe and discharge to the underground drainage pipe network, reduces the condition that the rainwater in the header tank flows backward to ground.

In summary, the present application includes at least one of the following beneficial technical effects:

1. during rainy days, rainwater can flow into the water collecting tank through the grid plate, is pumped into the water storage sedimentation tank through the first water suction pump to be subjected to standing sedimentation, and when arbor is required to be irrigated, the irrigation equipment is communicated with the water suction pipe and the rainwater in the water storage sedimentation tank is pumped into the irrigation equipment through the second water suction pump, so that the rainwater is collected and used as irrigation water.

2. The filter plate is erected in the water collecting tank, and the connecting pipe and the communicating part in the water collecting tank are positioned below the filter plate, so that impurities with larger volume and carried in rainwater can be filtered out through the filter plate and the like, and the connecting pipe is further facilitated to be reduced from being blocked by the impurities carried in the rainwater.

3. A plurality of connecting rods are arranged between the grating plates and the filter plates, two ends of each connecting rod are connected to one side of each grating plate opposite to the filter plates respectively, on one hand, the filter plates are stably erected in the water collecting tank, and meanwhile, when the grating plates are subsequently removed from the opening at the top of the water collecting tank, the grating plates can be taken out of the water collecting tank through the connecting rods together with the filter plates, so that sundries filtered on the filter plates can be cleaned conveniently.

Drawings

Fig. 1 is a schematic diagram of an embodiment of the present application for illustrating a water collection tank, an access tank, and a water storage and precipitation tank.

Fig. 2 is an enlarged schematic view of the portion a in fig. 1.

Fig. 3 is an enlarged schematic view of the portion B in fig. 1.

Reference numerals illustrate: a, a

1. A water collection tank; 11. a grating plate; 12. a filter plate; 13. a connecting rod; 14. a connecting rod is hung; 2. a water storage sedimentation tank; 20. a second annular stepped groove; 21. a first sealing cover; 3. an overhaul box; 30. a third annular stepped groove; 31. a second sealing cover; 32. a U-shaped rod; 4. a connecting pipe; 41. a first water pump; 5. a water pumping pipe; 51. a second water pump; 6. a sludge pipe; 61. a mud pump.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-3.

The embodiment of the application discloses a water storage system for watering landscaping trees, referring to fig. 1 and 2, the water storage system comprises a water collection tank 1 and a water storage sedimentation tank 2 which are buried underground, wherein the top opening of the water collection tank 1 is provided with a grid plate 11; the water collecting tank 1 is connected with the water storage sedimentation tank 2 through a connecting pipe 4, and a first water suction pump 41 is arranged on the connecting pipe 4; the water storage sedimentation tank 2 is communicated with a water suction pipe 5, and a second water suction pump 51 is arranged on the water suction pipe 5.

Rainwater can enter the water collecting tank 1 through the grating plate 11, is pumped into the water storage sedimentation tank 2 through the first water pump 41 for sedimentation, and when arbor of a garden building needs to be irrigated, after the irrigation equipment is communicated with the water pumping pipe 5, the rainwater in the water storage sedimentation tank 2 is pumped into the irrigation equipment through the second water pump 51 for irrigating arbor.

One end of the connecting pipe 4, which is close to the water collecting tank 1, stretches into the water collecting tank 1 and extends to the bottom of the water collecting tank 1, so that the first water suction pump 41 is convenient to pump out rainwater at the bottom of the water collecting tank 1, and rainwater gathered at the bottom of the water collecting tank 1 is reduced from being pumped into the water storage sedimentation tank 2 through the first water suction pump 41, so that the rainwater cannot be utilized, and the waste condition is caused.

The first annular step groove is formed in the opening of the top of the water collecting tank 1, the grating plate 11 is embedded into the first annular step groove, the grating plate 11 is stably erected at the opening of the water collecting tank 1, and meanwhile the grating plate 11 is convenient to assemble and disassemble in the water collecting tank 1.

The filter plate 12 is erected in the water collecting tank 1, the communicating part of the connecting pipe 4 and the water collecting tank 1 is positioned below the filter plate 12, and garbage sundries carried in rainwater are filtered through the filter plate 12 conveniently by the arrangement of the filter plate 12, so that the condition that the connecting pipe 4 is blocked due to the fact that the follow-up garbage sundries are accumulated at the bottom of the water collecting tank 1 is reduced. A plurality of connecting rods 13 are arranged between the filter plate 12 and the grating plates 11, two ends of each connecting rod 13 are respectively connected to the filter plate 12 and the grating plates 11, on one hand, the filter plate 12 is stably erected in the water collecting tank 1, and meanwhile, when the water collecting tank 1 is dismounted from the grating plates 11, the grating plates 11 can take the filter plate 12 out of the water collecting tank 1 together through the connecting rods 13, so that garbage and sundries filtered on the filter plate 12 can be cleaned conveniently.

The periphery of connecting rod 13 all is fixed with a plurality of hanging rods 14, and hanging rods 14 slope upwards to the direction that keeps away from connecting rod 13 sets up, through setting up hanging rods 14, accessible hanging rods 14 intercept the debris that the disposal bag etc. volume is great that carries in the rainwater, delays filter plate 12 to be piled up by debris fast.

The top of the water collecting tank 1 is also communicated with an overflow pipe, the overflow pipe is communicated with an underground drainage pipe network, the overflow pipe is positioned below the filter plate 12 and is higher than the connecting pipe 4, when the rainfall is large, the excessive rainwater in the water collecting tank 1 can flow into the underground drainage pipe network through the overflow pipe, and the condition that the rainwater in the water collecting tank 1 flows backward to the ground is reduced.

One end of the overflow pipe extends into the water collecting tank 1, a flexible filter screen is sleeved at one end of the overflow pipe extending into the water collecting tank 1, the flexible filter screen is bound on the overflow pipe through iron wires, and the overflow pipe is beneficial to reducing the situation that sundries in the water collecting tank 1 block the pipe orifice of the overflow pipe through the above arrangement.

Referring to fig. 1 and 3, the bottom of the water storage sedimentation tank 2 is also communicated with a sludge pipe 6, and the sludge pipe 6 is communicated with an underground sewage pipe network; the water suction pipe 5 is positioned above the sludge pipe 6; the sludge pipe 6 is also provided with a sludge pump 61; by the arrangement, the mud pump 61 can regularly pump out the sludge deposited at the bottom of the water storage sedimentation tank 2, and the like, so that the settled sludge at the bottom of the water storage sedimentation tank 2 is cleaned.

One end of the water suction pipe 5, which is far away from the water storage sedimentation tank 2, extends to the ground, so that the water storage sedimentation tank is convenient to be connected with irrigation equipment subsequently. The top opening of the water storage sedimentation tank 2 is provided with a first sealing cover 21, and the top opening of the water storage sedimentation tank 2 is provided with a second annular stepped groove 20 in a surrounding manner; the first sealing cover 21 is embedded into the second annular stepped groove 20, so that the second sealing cover 31 can be detachably erected at the top opening of the water storage sedimentation tank 2, and through the arrangement, the first sealing cover 21 can be periodically opened and the water storage sedimentation tank 2 can be washed and cleaned. A handle is fixed to the upper surface of the first sealing cover 21 to facilitate movement of the first sealing cover 21.

The water storage system for watering the landscaping arbor also comprises an overhaul box 3 buried underground; the first water suction pump 41, the second water suction pump 51 and the slurry pump 61 are all arranged in the overhaul box 3, the top opening of the overhaul box 3 is arranged, and the top of the overhaul box 3 is also provided with a second sealing cover 31; a third annular stepped groove 30 is formed in the top of the overhaul box 3; the second sealing cap 31 is inserted into the third annular stepped groove 30. With the arrangement, the first water pump 41, the second water pump 51 and the slurry pump 61 can be accommodated in the maintenance box 3, so that occupation of ground space is reduced, and the first water pump 41, the second water pump 51 and the slurry pump 61 are damaged later; the service personnel can open the second sealing cover 31 to enter the service box 3 for service. A handle is fixed to the upper surface of the second sealing cap 31 to facilitate movement of the second sealing cap 31.

The inner side wall of the overhaul box 3 is also provided with a ladder structure which comprises a plurality of U-shaped rods 32; a plurality of U-shaped poles 32 are evenly distributed along vertical direction, and the equal welded fastening in U-shaped pole 32 both ends is on the 3 inside walls of maintenance case, and the maintenance personnel of being convenient for get into inside the maintenance case 3 through cat ladder structure.

The implementation principle of the embodiment of the application is as follows: the irrigation device is communicated with one end of the water suction pipe 5 extending out of the ground. In rainy days, rainwater flows into the water collection tank 1 through the grating plates 11, and impurities are filtered through the filter plates 12 and then flow into the bottom of the water collection tank 1; the first water suction pump 41 pumps rainwater at the bottom of the water collection tank 1 into the water storage sedimentation tank 2 for sedimentation, and when arbor is required to be irrigated, the rainwater in the water storage sedimentation tank 2 is pumped into the irrigation equipment by the second water suction pump 51 for irrigating greening arbor.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. Afforestation arbor watering is with retaining system, its characterized in that: the water collecting tank (1) and the water storage sedimentation tank (2) are buried underground, the top opening of the water collecting tank (1) is provided with a grid plate (11) which is detachably connected with the top opening of the water collecting tank (1), the water collecting tank (1) and the water storage sedimentation tank (2) are communicated through a connecting pipe (4), a first water suction pump (41) is installed on the connecting pipe (4), the water storage sedimentation tank (2) is communicated with a water suction pipe (5), and a second water suction pump (51) is installed on the water suction pipe (5); a filter plate (12) is also erected in the water collecting tank (1); the connecting pipe (4) is communicated with the water collecting tank (1) and is positioned below the filter plate (12).

2. A water storage system for watering landscaping trees as claimed in claim 1, wherein: the edge of the opening at the top of the water collecting tank (1) is provided with a first annular stepped groove, and the grating plate (11) is embedded into the first annular stepped groove.

3. A water storage system for watering landscaping trees as claimed in claim 2, wherein: a plurality of connecting rods (13) are arranged between the grating plates (11) and the filter plates (12), and two ends of each connecting rod (13) are respectively connected with the grating plates (11) and the filter plates (12).

4. A water storage system for watering landscaping trees according to claim 3, wherein: the periphery of the connecting rod (13) is provided with a plurality of hanging rods (14), and the hanging rods (14) are obliquely upwards arranged in a direction away from the connecting rod (13).

5. A water storage system for watering landscaping trees according to any one of claims 1-4, wherein: the bottom of the water storage sedimentation tank (2) is also communicated with a sludge pipe (6), and a slurry pump (61) is arranged on the sludge pipe (6).

6. The water storage system for watering landscaping trees according to claim 5, wherein: the device further comprises an overhaul box (3) buried underground, wherein the first water suction pump (41), the second water suction pump (51) and the slurry pump (61) are all arranged in the overhaul box (3); the top opening of the overhaul box (3) is arranged, and a first sealing cover (21) is detachably connected to the top opening of the overhaul box (3).

7. A water storage system for watering landscaping trees as claimed in claim 1, wherein: one end of the connecting pipe (4) extends into the water collecting tank (1) and extends to the bottom of the water collecting tank (1).

8. A water storage system for watering landscaping trees as claimed in claim 1, wherein: the top of the water collecting tank (1) is also communicated with an overflow pipe, the overflow pipe is higher than the connecting pipe (4), and the overflow pipe is communicated with an underground drainage pipe network.