CN213086982U - Flower nursery with water circulation structure - Google Patents

Abstract

The application relates to a flower nursery with a water circulation structure, which comprises a soil layer and a protective guard for supporting the soil layer, wherein a drainage device is arranged in the soil layer, the drainage device comprises a water collecting tank, a notch of the water collecting tank is exposed out of the soil layer, a notch cover of the water collecting tank is provided with a soil isolation net cover for isolating soil, and a plurality of pores are formed in the soil isolation net cover in a penetrating manner; the tank bottom of water catch bowl runs through and has seted up drainage through-hole, and the drainage through-hole is pegged graft and is had the drain pipe, and drainage through-hole is inserted to drain pipe one end, and the drain pipe other end is towards artifical lake. In rainy days, rainwater permeates into the soil layer, flows into the water collecting tank through the soil separation net cover, then enters the water discharging pipe through the water discharging through hole, and finally is discharged into the artificial lake, so that the problem that rainwater flows out of a sidewalk from the gap of the protective guard to cause the accumulated water of the sidewalk is reduced; and in dry days, the irrigation device is started to extract water from the artificial lake to irrigate the soil layer.

Description

Flower nursery with water circulation structure

Technical Field

The application relates to the field of garden circulating water, in particular to a flower nursery with a water circulating structure.

Background

The flower nursery in the park is mostly used for the viewing of pedestrians, the flower nursery is usually arranged beside a sidewalk, and an artificial lake is usually chiseled beside the sidewalk. In addition, protective guards are generally built by stacking large stones between the flower nursery and the sidewalk, the protective guards can support soil layers of the flower nursery to prevent the soil layers from collapsing fillings, soil in the flower nursery can flow along with rainwater in rainy days, and the protective guards can block the soil in the flower nursery from flowing to the sidewalk along with the rainwater to cause soil deposition on the sidewalk.

However, when the amount of rainwater is large, rainwater can flow to the pedestrian path from the gap of the guard rail, so that water is accumulated on the pedestrian path, and the pedestrian traffic is influenced.

SUMMERY OF THE UTILITY MODEL

In order to reduce the amount of water in the soil layer which flows out of the sidewalk through the guard rail in rainy days, the application provides the flower nursery with a water circulation structure.

The application provides a flower nursery with hydrologic cycle structure adopts following technical scheme:

a flower nursery with a water circulation structure comprises a soil layer and guard railings located at the edge of the soil layer, wherein a drainage device is installed in the soil layer and comprises a plurality of water collecting grooves, the soil layer is exposed out of the openings of the water collecting grooves, soil separation net covers used for separating soil are covered on the water collecting grooves, and a plurality of fine holes are formed in the soil separation net covers in a penetrating mode; the water collecting tank is characterized in that a drainage through hole penetrates through the bottom of the water collecting tank, a drainage pipe is inserted into the drainage through hole in an inserted mode, one end of the drainage pipe is inserted into the drainage through hole and does not exceed the drainage through hole, the other end of the drainage pipe faces towards the artificial lake, and the arrangement height of one end, inserted into the drainage through hole, of the drainage pipe is higher than that of one end, facing towards the artificial lake, of the drainage pipe.

By adopting the technical scheme, in rainy days, rainwater permeates into the soil layer, flows into the water collecting tank through the soil separation net cover, then enters the water discharging pipe through the water discharging through hole and finally is discharged into the artificial lake, so that the problem that rainwater flows out of the sidewalk from the gap of the protective guard to cause the accumulated water on the sidewalk is reduced. In dry weather, the water pump is started to pump water from the artificial lake to irrigate the soil layer.

Preferably, the bottom of the water collecting tank is arc-shaped, and the edge of the bottom of the water collecting tank is higher than the center of the bottom of the water collecting tank; the drainage through hole is arranged at the center of the groove bottom.

Through adopting above-mentioned technical scheme, can let the rainwater that gets into the water catch bowl more smoothly get into in the drain pipe through the drainage through-hole.

Preferably, a bell mouth is arranged on the notch of the water collecting tank, and one end with a small diameter of the bell mouth is fixedly connected to the notch of the water collecting tank and is involuted with the notch of the water collecting tank.

Through adopting above-mentioned technical scheme, increased the area of contact of water catch bowl notch and soil horizon to can collect the rainwater that permeates the soil horizon more rapidly when rainy day, arrange into artifical lake with the rainwater.

Preferably, a mud containing box which is used for collecting mud and has an opening on one side is arranged in the water collecting tank, a plurality of drainage pores are arranged on the peripheral wall of the mud containing box in a penetrating manner, and the opening of the mud containing box faces the notch of the water collecting tank when the mud containing box is arranged in the water collecting tank.

Through adopting above-mentioned technical scheme, can enough collect the earth that gets into in the water catch bowl, can not hinder drainage through-hole drainage again.

Preferably, the mud containing box is provided with a lifting rod.

Through adopting above-mentioned technical scheme, make things convenient for the staff to put into the water catch bowl with flourishing mud case or take out flourishing mud case from the water catch bowl.

Preferably, a gap exists between the mud containing tank and the wall of the water collecting tank, a mud blocking inclined plate is fixedly connected to the upper surface of the side plate of the mud containing tank, one side of the mud blocking inclined plate is in contact with the wall of the water collecting tank, and the contact position is set to be a sharp angle.

By adopting the technical scheme, the mud containing box can be further conveniently placed into the water collecting tank or taken out from the water collecting tank by workers, and the mud can be reduced from being deposited in a gap between the mud containing box and the water collecting tank.

Preferably, a plurality of movable assemblies are arranged on the outer peripheral surface of the mud containing box, each movable assembly comprises a roller with a center penetrating through the corresponding opening, flat plates penetrating through the openings are respectively arranged on two sides of each roller, each flat plate is connected with the corresponding roller through a bolt, one end of each flat plate is fixedly connected to the outer peripheral surface of the mud containing box, and one end of each roller is attached to the wall of the corresponding water collecting groove.

Through adopting above-mentioned technical scheme, further make things convenient for the staff to put into the water catch bowl with flourishing mud case or take out flourishing mud case from the water catch bowl.

Preferably, the upper cover of the notch of the water collecting tank is provided with a plurality of soil separation net covers, and the adjacent two soil separation net covers have staggered meshes.

Through adopting above-mentioned technical scheme, can further block that soil on soil horizon gets into in the water catch bowl.

Preferably, the movable assemblies are arranged on the outer circumferential surface of the mud containing box at equal intervals along the circumferential direction.

Through adopting above-mentioned technical scheme, further make things convenient for the staff to put into the water catch bowl with flourishing mud case or take out flourishing mud case from the water catch bowl.

Preferably, a watering device is further installed in the soil layer and comprises a water pump, a water inlet pipe is inserted into a water inlet of the water pump, one end of the water inlet pipe is inserted into the water inlet of the water pump, and the other end of the water inlet pipe is communicated with the artificial lake; the water pump is characterized in that a water delivery pipe is inserted into a water delivery port of the water pump, one end of the water delivery pipe is inserted into the water delivery port of the water pump, and the other end of the water delivery pipe is connected with an irrigation nozzle.

By adopting the technical scheme, the flower nursery can be used for irrigating the soil layer by starting the irrigation device and extracting water from the artificial lake in dry days.

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

1. rainwater permeating into the soil layer is quickly drained to the artificial lake through the water collecting groove and the drain pipe arranged in the soil layer;

2. the mud containing box is arranged in the water collecting tank, so that workers can clean the water collecting tank more conveniently;

3. the movable assembly is arranged in the mud containing box, so that workers can lift the mud containing box more easily.

Drawings

FIG. 1 is a schematic view showing the overall structure of a flower nursery having a water circulation structure according to the present embodiment;

FIG. 2 is a schematic view of a flower bed with a water circulation structure with a part of a soil layer removed in the embodiment;

FIG. 3 is a sectional view of the water collecting tub and the water discharging pipe in the present embodiment;

fig. 4 is a schematic view of the mud tank in the present embodiment.

Description of reference numerals: 1. a soil layer; 2. protecting the fence; 3. a water collection tank; 31. a drain through hole; 4. a drain pipe; 5. a soil isolation net cover; 6. a watering device; 61. a water pump; 62. a water inlet pipe; 63. a water supply pipe; 64. watering the spray head; 7. a mud containing box; 71. lifting a pull rod; 72. a mud blocking inclined plate; 73. a movable component; 731. a roller; 732. a flat plate; 733. a bolt; 74. a fine drainage hole; 8. a bell mouth.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses a flower garden with a water circulation structure, and referring to fig. 1 and 2, the flower garden comprises a soil layer 1, one side of the soil layer 1 is provided with a protective guard 2 formed by stacking large stones, three water collecting tanks 3 are arranged in the soil layer 1 close to one side of the protective guard 2, the water collecting tanks 3 are built by bricks, the cross sections of the water collecting tanks 3 are rectangular, the bottom surfaces of the water collecting tanks 3 are provided with water drainage through holes 31, drain pipes 4 are inserted into the water drainage through holes 31, one ends of the drain pipes 4 are inserted into the water drainage through holes 31 and do not penetrate out of the water drainage through holes 31 to enter the water collecting tanks 3, and pipe orifices at the other ends of the drain pipes 4; the drain pipe 4 is disposed at a lower height toward the end of the artificial lake than the end of the drain pipe 4 inserted into the drain through hole 31.

In addition, three soil separation net covers 5 are covered on the notch of the water collecting tank 3, and the net holes of two adjacent soil separation net covers 5 are staggered.

In addition, the flower nursery is also provided with a watering device 6 for watering the soil layer 1 in dry days, the watering device 6 comprises a water pump 61, a water inlet pipe 62 is inserted into a water inlet of the water pump 61, one end of the water inlet pipe 62 is inserted into a water inlet of the water pump 61, and the other end of the water inlet pipe 62 is communicated with the artificial lake; a water supply pipe 63 is inserted into a water supply port of the water pump 61, one end of the water supply pipe 63 is inserted into the water supply port of the water pump 61, and the other end of the water supply pipe 63 is connected with a watering spray head 64.

In rainy days, rainwater permeates into the soil layer 1, can flow into the water collecting tank 3 through the soil separation net cover 5, then enters the drain pipe 4 through the drain through hole 31, and finally is drained into the artificial lake, so that the problem that rainwater flows out of a sidewalk from the gap of the protective guard 2 to cause the accumulated water of the sidewalk is reduced; on dry days, the water pump 61 is started to pump water from the artificial lake to water the soil layer 1.

In order to make rainwater more smoothly enter the drain pipe 4 through the drain through hole 31, referring to fig. 2 and 3, the bottom of the water collecting tank 3 is set to be arc-shaped, and the height at the edge of the bottom of the tank is higher than the height at the center of the bottom of the tank; a drain through hole 31 is provided at the center of the groove bottom. The rounded bottom allows rainwater entering the water collection sump 3 to flow more smoothly through the drainage through-holes 31 and into the drainage pipe 4 than a planar bottom.

In order to accelerate the speed of collecting rainwater by the water collecting tank 3, refer to fig. 2 and 3, the rigid coupling has a horn mouth 8 on the notch of the water collecting tank 3, the one end rigid coupling that the 8 bore of horn mouth is little is on the notch of the water collecting tank 3 and to closing with the notch of the water collecting tank 3, namely, the 3 notches of the water collecting tank coincide with the one end that the 8 bore of horn mouth is little, thereby the area of contact of the water collecting tank 3 and the soil layer 1 has been increased, and then can collect the rainwater that infiltrates the soil layer 1 more rapidly when raining, in time arrange into artificial lake with the rainwater.

Although the soil layer 1 and the water collecting tub 3 are separated by arranging three soil-separation net covers 5 on the opening of the water collecting tub 3, a small amount of soil is introduced into the water collecting tub 3 through the soil-separation net covers 5, and the soil introduced into the water collecting tub 3 is deposited to block the drain through-holes 31. Referring to fig. 3, a mud containing box 7 is arranged in the water collecting tank 3, the mud containing box 7 is a rectangular box, and one surface of the mud containing box 7 facing the notch of the water collecting tank 3 is open, so that the mud entering the water collecting tank 3 falls into the mud containing box 7 through the opening; gaps are reserved between four surfaces of the four walls of the water collecting tank 3 towards which the mud containing tank 7 faces and the four walls of the water collecting tank 3, so that workers can conveniently put the mud containing tank 7 into the water collecting tank 3 or take the mud containing tank 7 out of the water collecting tank 3; and drainage pores 74 are opened at four side plates of the four walls of the water collection tank 3 toward which the mud receiving box 7 faces, so that rainwater flowing into the water collection tank 3 is not hindered from flowing toward the drainage through holes 31.

Referring to fig. 3 and 4, a lifting rod 71 is arranged on a pair of parallel side plates of the mud containing box 7, the lifting rod 71 is an arc-shaped rod, two ends of the lifting rod 71 are respectively and fixedly connected to the pair of parallel side plates of the mud containing box 7, and the top of the lifting rod 71 is far away from the bottom of the mud containing box 7. The arrangement of the lifting rod 71 further facilitates the workers to put the mud containing box 7 into the water collecting tank 3 or take the mud containing box 7 out of the water collecting tank 3.

Because gaps are reserved between the four side plates of the four walls of the water collecting tank 3 towards which the mud containing tank 7 faces and the four walls of the water collecting tank 3, mud entering the water collecting tank 3 may be deposited in the gaps between the mud containing tank 7 and the water collecting tank 3, and in severe cases, the gaps between the mud containing tank 7 and the water collecting tank 3 may be blocked, so that drainage is not smooth, and the mud entering the gaps between the mud containing tank 7 and the water collecting tank 3 is also blocked when workers take out the mud containing tank 7 from the water collecting tank 3. Referring to fig. 3 and 4, a mud-blocking inclined plate 72 is arranged on a side plate of the mud-containing tank 7, the mud-blocking inclined plate 72 is a horn-shaped annular plate, one side of the small caliber of the mud-blocking inclined plate 72 is integrally and fixedly connected to the side plate of the mud-containing tank 7, the angle between the mud-blocking inclined plate 72 and the bottom of the mud-containing tank 7 is 45-60 degrees, one side of the large caliber of the mud-blocking inclined plate 72 is in contact with the wall of the water collecting tank 3, and the contact position is set to be a sharp angle, so that the deposition of soil in the gap between the mud-containing tank 7 and the water collecting tank 3 is reduced, and the gap between the mud-containing tank 7 and the water collecting tank 3 is prevented. When the worker lifts the mud containing box 7, the mud blocking inclined plate 72 attached to the wall of the water collecting tank 3 pushes up the mud falling on the mud blocking inclined plate 72 to the mud containing box 7, and the mud is prevented from entering the gap between the mud containing box 7 and the water collecting tank 3.

Because the mud-blocking inclined plate 72 is attached to the groove wall of the water collecting tank 3, if the worker lifts the mud containing tank 7 in the direction of the notch of the water collecting tank 3, the mud containing tank 7 may be blocked on the groove wall of the water collecting tank 3 and is not easy to lift out. Referring to fig. 3 and 4, a movable assembly 73 is provided on the end surface of the side plate of the sludge containing tank 7 facing the wall of the water collecting tank 3. The movable assembly 73 comprises a roller 731, two flat plates 732 are respectively arranged on two sides of the roller 731, and the two flat plates 732 are parallel; the flat plates 732, the rollers 731 and the flat plates 732 are connected by inserting a bolt 733, and one end of each of the two flat plates 732 is fixedly connected to an end surface of a side plate of the sludge containing tank 7 facing the wall of the water collecting tank 3.

When the worker lifts the sludge containing tank 7, the sludge containing tank 7 is rotatably connected with the wall of the water collecting tank 3 through the roller 731, so that the sludge containing tank 7 is prevented from being clamped on the wall of the water collecting tank 3 and is not easy to lift out.

The implementation principle of the flower nursery with the water circulation structure is as follows: in rainy days, rainwater permeates into the soil layer 1 and flows into the water collecting tank 3 through the soil isolation net cover 5, then enters the water drainage pipe through the water drainage through hole 31 and finally is drained into the artificial lake; on dry days, the water pump 61 is started to pump water from the artificial lake to water the soil layer 1.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A flower nursery with a water circulation structure, comprising a soil layer (1) and a guard rail (2) located at the edge of the soil layer (1), characterized in that: a drainage device is arranged in the soil layer (1), the drainage device comprises a plurality of water collecting grooves (3), the opening of each water collecting groove (3) is exposed out of the soil layer (1) and covered with a soil isolating net cover (5) for isolating soil, and a plurality of fine holes are formed in the soil isolating net cover (5) in a penetrating mode;

the water collecting tank is characterized in that a drainage through hole (31) penetrates through the bottom of the water collecting tank (3), a drainage pipe (4) is inserted into the drainage through hole (31) in a splicing mode, one end of the drainage pipe (4) is inserted into the drainage through hole (31) and does not exceed the drainage through hole (31), the other end of the drainage pipe (4) faces towards the artificial lake, and the arrangement height of one end, inserted into the drainage through hole (31), of the drainage pipe (4) is higher than the arrangement height of one end, facing towards the artificial lake, of the drainage pipe (4).

2. The flower nursery with the water circulation structure as claimed in claim 1, wherein: the bottom of the water collecting tank (3) is arc-shaped, and the edge of the bottom of the water collecting tank is higher than the center of the bottom of the water collecting tank; the drainage through hole (31) is provided at the center of the groove bottom.

3. A flower nursery with a water circulation structure as claimed in claim 2, wherein: the water collecting tank is characterized in that a horn mouth (8) is arranged on the notch of the water collecting tank (3), and one end of the horn mouth (8) with a small caliber is fixedly connected to the notch of the water collecting tank (3) and is abutted to the notch of the water collecting tank (3).

4. A flower nursery with a water circulation structure as claimed in claim 3, wherein: a mud containing box (7) which is used for collecting mud and has one open surface is arranged in the water collecting tank (3), and a plurality of drainage pores (74) are arranged on the peripheral wall of the mud containing box (7) in a penetrating way; when the sludge containing tank (7) is arranged in the water collecting tank (3), the opening of the sludge containing tank (7) faces the notch of the water collecting tank (3).

5. The flower nursery with the water circulation structure as claimed in claim 4, wherein: the mud containing box (7) is provided with a lifting rod (71).

6. The flower nursery with the water circulation structure as claimed in claim 5, wherein: the mud storage tank (7) and the water collecting tank (3) are in clearance, a mud blocking inclined plate (72) is fixedly connected to the upper surface of the peripheral wall of the mud storage tank (7), one side of the mud blocking inclined plate (72) is in contact with the wall of the water collecting tank (3), and the contact position is set to be a sharp corner.

7. The flower nursery with the water circulation structure as claimed in claim 6, wherein: be provided with a plurality of movable assembly (73) on the outer peripheral face of flourishing mud case (7), movable assembly (73) include that a center runs through gyro wheel (731) of trompil, gyro wheel (731) both sides respectively are provided with one and run through flat board (732) of trompil, flat board (732) with connect through wearing to establish a bolt (733) between gyro wheel (731), the one end rigid coupling of flat board (732) is in on the outer peripheral face of flourishing mud case (7) and gyro wheel (731) one end with the laminating of catch basin (3) cell wall.

8. The flower nursery with the water circulation structure as claimed in claim 1, wherein: the upper cover of the notch of the water collecting tank (3) is provided with a plurality of soil separation net covers (5) and two adjacent soil separation net covers (5) with staggered meshes.

9. The flower nursery with the water circulation structure as claimed in claim 7, wherein: the movable assemblies (73) are arranged on the outer peripheral surface of the mud containing box (7) at equal intervals along the circumferential direction.

10. The flower nursery with the water circulation structure as claimed in claim 1, wherein: an irrigation device (6) is further installed in the soil layer (1), the irrigation device (6) comprises a water pump (61), a water inlet pipe (62) is inserted into a water inlet of the water pump (61), one end of the water inlet pipe (62) is inserted into a water inlet of the water pump (61), and the other end of the water inlet pipe (62) is communicated with the artificial lake; a water delivery pipe (63) is inserted into a water delivery port of the water pump (61), one end of the water delivery pipe (63) is inserted into the water delivery port of the water pump (61), and the other end of the water delivery pipe (63) is connected with a watering spray head (64).

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