CN111052950A - Drip irrigation system for vertical greening flowerpot - Google Patents

Abstract

The invention discloses a vertical greening flowerpot drip irrigation system, which is characterized in that a row of automatic spraying systems are arranged above a flowerpot component at the top layer or only the top layer is required to be irrigated when the automatic spraying systems are not prepared, namely when the water level in an outer pot reaches the drip irrigation water level, water can be dripped into air holes at the middle lower part of the lower inner pot from drip irrigation pipe holes, the drip irrigation water can reach the root system position of green plant soil directly, when the irrigation water flow rate is overlarge, the water inflow rate of the outer pot is larger than that of the drip irrigation pipe holes, when the water level rises to reach the overflow pipe holes, the water overflows into the lower outer pot through the overflow pipe holes, and is distributed layer by layer, so that the self-adaptive regulation drainage function is realized, each layer of flowerpot is uniformly irrigated, the green plant irrigation maintenance efficiency is greatly improved, the cost is favorably reduced.

Description

Drip irrigation system for vertical greening flowerpot

Technical Field

The invention relates to the technical field of greening, in particular to a drip irrigation system for a vertical greening flowerpot.

Background

At present, in order to improve the greening coverage rate of cities, increase the amount of urban green and improve the environmental quality of the cities, not only plane greening but also plane greening and vertical greening are required to be organically combined. The vertical greening is realized by utilizing the surface area of the medium wall body and asking for greening space from the wall body, so that the purposes of saving land, increasing green quantity, improving ecological quality and beautifying living environment are achieved. The vertical greening has the advantages of small occupied area, quick response and large green quantity, can make up the defects of flat land greening, enrich greening levels, increase the artistic effect of garden buildings, make the garden buildings more harmonious and unified with the environment, and is an effective way for improving the living ecological environment and widening the urban greening space. In the prior art, vertical greening mostly adopts the form of drip irrigation of greening flowerpots to irrigate, but in the prior art, the existing vertical greening flowerpots have the defects of complex installation and higher cost of an automatic spraying system, the flowerpots on each layer cannot be uniformly drip-irrigated, the irrigation maintenance efficiency is low, and water resources are easily wasted.

Disclosure of Invention

The invention aims to provide a drip irrigation system for vertical greening flowerpots, and aims to solve the technical problems that an automatic spraying system is complex to install and high in cost, each layer of flowerpot cannot be uniformly drip-irrigated, irrigation maintenance efficiency is low, and water resources are easily wasted in the vertical greening flowerpots in the prior art.

In order to achieve the purpose, the drip irrigation system for the vertical greening flowerpot adopted by the invention comprises a mounting frame and a plurality of flowerpot components mounted on the mounting frame, wherein the flowerpot components are arranged according to a hierarchical structure, each flowerpot component comprises an outer pot and an inner pot, the inner pot is obliquely arranged inside the outer pot, an overflow pipe hole and at least one drip irrigation pipe hole are formed in the inner bottom wall of the outer pot, the length of the overflow pipe hole is greater than that of the drip irrigation pipe hole, a first water permeable hole is formed in the bottom of the inner pot, a plurality of air holes are formed in the side wall of the inner pot, and the drip irrigation pipe hole in the inner bottom wall of the outer pot corresponds to the air hole in one side wall of the inner pot at the lower layer.

The overflow pipe hole comprises a pipe body and a connecting pipe, the pipe body and the inner bottom wall of the outer basin are integrally formed, the pipe body is arranged in a circular truncated cone structure, a first overflow hole is formed in the center of an axial line of the pipe body, and the connecting pipe is communicated with the first overflow hole.

The overflow pipe hole further comprises at least two reinforcing ribs, the two ends of each reinforcing rib are respectively fixedly connected with the connecting pipe and the pipe body, and the reinforcing ribs are circumferentially distributed on the periphery of the connecting pipe.

The pipe body is provided with a plurality of reinforcing ribs, the number of the second overflow holes is matched with that of the reinforcing ribs, the second overflow holes are formed between every two adjacent reinforcing ribs, and the aperture of each second overflow hole is smaller than that of each first overflow hole.

Wherein, the water outlet of the drip irrigation pipe hole is provided with a concave-convex structure.

Wherein the height of the overflow pipe hole exceeds the height of the drip irrigation pipe hole, and the height exceeding range is 2 mm-5 mm.

And a plurality of second water permeable holes which are uniformly distributed are also formed in the outer edge of the bottom of the inner basin, and the shortest straight-line distance from the centers of the second water permeable holes to the bottom of the inner basin is smaller than the height of the holes of the drip irrigation pipe.

The flowerpot assembly further comprises fixing pieces, the number of the fixing pieces is at least four, each fixing piece is integrally formed with the inner pot, and each fixing piece is clamped on the side wall of the outer pot.

Wherein, every all be provided with U type groove on the lateral wall outward flange of outer basin.

The mounting bracket comprises a bracket body and a limiting part, the bracket body is detachably connected with the outer basin, one end of the limiting part is fixedly connected with the bracket body, the other end of the limiting part penetrates through the side wall of the outer basin, and the limiting part is arranged in an L-shaped structure.

The invention has the beneficial effects that: through at the top layer only need irrigate the top layer when flowerpot subassembly top installation one row of automatic spray system perhaps not being furnished with automatic spray system, promptly work as when water level in the outer basin reaches and drips irrigation the water level, water can follow drip irrigation the tube hole and instil into the lower floor lower part in the interior basin the bleeder vent makes the direct green root system position of planting soil of the water of driping irrigation, when irrigation water velocity of flow is too big, the inflow of outer basin is greater than drip irrigation the flow of tube hole, the water level risees and reaches during the overflow tube hole, through overflow tube hole overflow to lower floor in the outer basin, shunt layer upon layer realizes self-adaptation regulation drainage function, realizes that each layer flowerpot obtains even irrigation, improves green irrigation maintenance efficiency of planting greatly, does benefit to reduce cost, water conservation and energy saving.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural view of the drip irrigation system for the vertical greening flowerpot of the present invention.

Fig. 2 is a structural sectional view of the vertical greening flowerpot drip irrigation system of the present invention.

Fig. 3 is a schematic structural view of the flowerpot assembly of the present invention.

Figure 4 is a front view of the pot assembly of the present invention.

Fig. 5 is a top view of the vertical greening pot drip irrigation system of the present invention.

Fig. 6 is a side view of the vertical greening pot drip irrigation system of the present invention.

Fig. 7 is a rear view of the vertical greening pot drip irrigation system of the present invention.

100-vertical greening flowerpot drip irrigation system, 10-mounting frame, 11-frame body, 12-limiting piece, 20-flowerpot assembly, 21-outer pot, 211-overflow pipe hole, 212-drip irrigation pipe hole, 213-pipe body, 214-connecting pipe, 215-first overflow hole, 216-reinforcing rib, 217-second overflow hole, 218-U-shaped groove, 22-inner pot, 221-first water permeable hole, 222-air permeable hole, 223-second water permeable hole and 23-fixing piece.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Further, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Referring to fig. 1 to 7, the present invention provides a vertical greening flowerpot drip irrigation system 100, including a mounting frame 10, and a plurality of flowerpot assemblies 20 mounted on the mounting frame 10, wherein the plurality of flowerpot assemblies 20 are arranged in a hierarchical structure, each flowerpot assembly 20 includes an outer pot 21 and an inner pot 22, the inner pot 22 is obliquely arranged inside the outer pot 21, an overflow pipe hole 211 and at least one drip irrigation pipe hole 212 are arranged on an inner bottom wall of the outer pot 21, a length of the overflow pipe hole 211 is greater than that of the drip irrigation pipe hole 212, a first water permeable hole 221 is arranged on a bottom of the inner pot 22, a plurality of air vents 222 are arranged on a side wall of the inner pot 22, and the drip irrigation pipe hole 212 on an inner bottom wall of the outer pot 21 corresponds to the air vent 222 on a side wall of the inner pot 22.

In this embodiment, four corners of the mounting frame 10 are provided with locking holes, the mounting frame 10 is provided with evenly distributed hollowed portions, each flowerpot component 20 corresponds to one hollowed portion, and four corners of the hollowed portions are provided with mounting posts, when each flowerpot component 20 needs to be mounted on the mounting frame 10, the four threaded locking holes on one side wall of the outer pot 21 are aligned with the four mounting posts on the hollowed portions, and then screws are passed through the mounting posts and screwed into the threaded locking holes, so that the flowerpot components 20 can be mounted on the mounting frame 10, after the plurality of flowerpot components 20 are mounted on the mounting frame 10 in a multi-layer hierarchical distribution manner, expansion bolts are passed through the locking holes and driven into the wall, so that the vertically-greening flowerpot drip irrigation system 100 is mounted on the wall, then, only the top layer needs to be irrigated by installing a row of automatic spraying systems above the flowerpot assembly 20 at the top layer or not preparing the automatic spraying systems, that is, when the water level in the outer pot 21 reaches the drip irrigation water level, water drops from the drip irrigation pipe holes 212 into the air holes 222 at the middle lower part of the inner pot 22 at the lower layer, so as to enter the inner pot 22, so that the drip irrigation water reaches the root system position of green planting soil, wherein the number of the drip irrigation pipe holes 212 in each outer pot 21 is preferably two, and the two drip irrigation pipe holes 212 are arranged in parallel, when the irrigation water flow rate is too high, the water inlet flow of the outer pot 21 is greater than the drip irrigation flow of the drip irrigation pipe holes 212, when the water level rises to reach the overflow pipe holes 211, the water overflows into the outer pot 21 at the lower layer through the overflow pipe holes 211, and flows layer by layer, so as to realize the self-, realize that each layer flowerpot obtains even irrigation, improves green irrigation maintenance efficiency of planting greatly, does benefit to reduce cost, water conservation and energy saving, the setting of first hole 221 of permeating water can guarantee that green soil of planting is absorbing certain moisture content, keeps behind certain humidity, and unnecessary water is followed first hole 221 of permeating water is appeared, flows in and is connected with it in the outer basin 21, avoid green soil of planting excessively to absorb moisture content, lead to mashed root.

Further, the overflow pipe hole 211 includes a pipe body 213 and a connecting pipe 214, the pipe body 213 and the inner bottom wall of the outer tub 21 are integrally formed, the pipe body 213 is disposed in a circular truncated cone structure, a first overflow hole 215 is disposed at an axial center of the pipe body 213, and the connecting pipe 214 is communicated with the first overflow hole 215.

In this embodiment, the aperture of the drip irrigation pipe hole 212 is 3mm, the aperture of the first overflow hole 215 is larger than the aperture of the drip irrigation pipe hole 212, the aperture of the first overflow hole 215 is 15mm, the pipe 213 is integrally formed with the inner bottom wall of the outer basin 21, so that the structural strength of the outer basin 21 can be increased, and the pipe 213 is arranged in a truncated cone shape, so that when the water level rises to reach the overflow pipe hole 211, the resistance applied when the water overflows from the outside of the pipe 213 to the first overflow hole 215 is reduced, and the overflowing water overflows into the lower outer basin 21 through the connecting pipe 214, thereby realizing layer-by-layer flow distribution and realizing the function of adaptively adjusting and draining.

Further, the overflow pipe hole 211 further includes at least two reinforcing ribs 216, two ends of each reinforcing rib 216 are respectively and fixedly connected to the connecting pipe 214 and the pipe body 213, and the plurality of reinforcing ribs 216 are circumferentially distributed on the periphery of the connecting pipe 214.

In this embodiment, the reinforcing ribs 216 are integrally formed with the connecting pipe 214 and the pipe body 213, the number of the reinforcing ribs 216 is preferably four, the four reinforcing ribs 216 are uniformly distributed circumferentially, and the arrangement of the reinforcing ribs 216 can increase the structural strength of the overflow pipe hole 211, so that the overflow pipe is more durable.

Further, the pipe body 213 is further provided with second overflow holes 217, the number of the second overflow holes 217 is matched with that of the reinforcing ribs 216, the second overflow holes 217 are arranged between two adjacent reinforcing ribs 216, and the aperture of each second overflow hole 217 is smaller than that of the first overflow hole 215.

In this embodiment, the number of the second overflow holes 217 is preferably four, four second overflow holes 217 circumferentially surround the first overflow hole 215, the aperture of each second overflow hole 217 is 8mm, when the flow rate of irrigation water is too large, the inflow rate is greater than the drip leakage rate, and when the water level rises to reach the first overflow hole 215 and four second overflow holes 217, the water overflows to the lower layer of the inner basin 22 through the combined action of the four second overflow holes 217 and the first overflow hole 215, so that the layer-by-layer flow distribution is better realized, and the self-adaptive adjustment drainage function is realized.

Further, the water outlet of the drip irrigation pipe hole 212 is provided with a concave-convex structure.

In this embodiment, the concave-convex structure is disposed at the water outlet of each of the drip irrigation pipe holes 212 to ensure that the drip irrigation water can accurately fall into the corresponding position of the lower inner pot 22 from the drip irrigation point, so as to avoid the drip irrigation water from flowing away along the bottom and having inaccurate drop point, and ensure the reliability of the vertical greening flowerpot drip irrigation system 100.

Further, the height of the overflow tube holes 211 exceeds the height of the drip irrigation tube holes 212, and the height exceeding range is 2 mm-5 mm.

In the present embodiment, the height of the overflow pipe hole 211 is 2mm higher than that of the drip irrigation pipe hole 212, so that when the irrigation water flow is larger than the drip irrigation water flow, the first overflow hole 215 and the second overflow hole 217 operate, drip irrigation is not affected, and the reliability of the vertical greening flowerpot drip irrigation system 100 is ensured.

Further, a plurality of second water permeable holes 223 are uniformly distributed on the outer edge of the bottom of the inner basin 22, and the shortest straight distance between the centers of the second water permeable holes 223 and the bottom of the inner basin 22 is smaller than the height of the drip irrigation pipe hole 212.

In this embodiment, a plurality of second hole 223 of permeating water evenly distributed is on the bottom outward flange of basin 22 in, because interior basin 22 is in the interior slope setting of basin 21, and in drip irrigation pipe hole 212 is higher than interior basin 22 installation back lower most one row behind the second hole 223 of permeating water, can make the water level in the basin 21 soaks green soil of planting a small amount to still can keep green soil humidity of planting when not installing water guide cotton and using, be unlikely to make green soil of planting be soaked in the transition again and lead to rotten root.

Further, the flowerpot assembly 20 further comprises at least four fixing members 23, each fixing member 23 is integrally formed with the inner pot 22, and each fixing member 23 is fastened to the side wall of the outer pot 21.

In this embodiment, through every the mounting 23 respectively with interior basin 22 integrated into one piece, can increase interior basin 22's overall structure intensity, outer basin 21 can pass through mounting 23 block is in on four lateral walls of outer basin 21 to this realizes outer basin 21 with quick installation and dismantlement between the interior basin 22 have brought the convenience for the user.

Further, a U-shaped groove 218 is disposed on the outer edge of the sidewall of each outer tub 21.

In this embodiment, the setting of U type groove 218 can be favorable to the user with one row of automatic spraying system card go into in the U type groove 218 to install it fast fixedly, provide the mounted position for one row of automatic spraying system's installation, and both ends in the U type groove 218, be provided with the lamellar body on the inside wall of outer basin 21, the lamellar body not only can be strengthened the structural strength of outer basin 21 can be to the upper strata simultaneously outer basin 21 plays the supporting role.

Further, the mounting bracket 10 includes a bracket body 11 and a limiting member 12, the bracket body 11 and the outer basin 21 are detachably connected, one end of the limiting member 12 and the bracket body 11 are fixedly connected, the other end of the limiting member 12 penetrates through the side wall of the outer basin 21, and the limiting member is an L-shaped structure.

In this embodiment, the frame 11 is used for installing the flowerpot assemblies 20 at multiple levels and installing the flowerpot assemblies 20 on a wall, and the limiting member 12 is in an L-shaped structure and can support and limit the positions of the outer pots 21, so as to ensure the installation stability of the flowerpot assemblies 20.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. A drip irrigation system for vertical greening flowerpots,

including the mounting bracket, and install a plurality of flowerpot subassemblies on the mounting bracket, and a plurality of the flowerpot subassembly sets up according to hierarchical structure, every the flowerpot subassembly includes outer basin and interior basin, interior basin slope sets up the inside of outer basin, be provided with overflow tube hole and at least one drip irrigation tube hole on the interior diapire of outer basin, and the length in overflow tube hole is greater than drip irrigation tube hole, be provided with the first hole of permeating water on the bottom of interior basin, be provided with a plurality of bleeder vents on the lateral wall of interior basin, just on the interior diapire of outer basin drip irrigation tube hole corresponds the lower floor the bleeder vent of the last lateral wall of interior basin.

2. The vertical greening flowerpot drip irrigation system of claim 1,

the overflow pipe hole comprises a pipe body and a connecting pipe, the pipe body and the inner bottom wall of the outer basin are integrally formed, the pipe body is arranged in a circular truncated cone structure, a first overflow hole is formed in the center of an axial line of the pipe body, and the connecting pipe is communicated with the first overflow hole.

3. The vertical greening flowerpot drip irrigation system of claim 2,

the overflow pipe hole still includes the strengthening rib, the quantity of strengthening rib is two at least, every the both ends of strengthening rib respectively with the connecting pipe with body fixed connection, and it is a plurality of the strengthening rib is the circumference and distributes the periphery of connecting pipe.

4. The vertical greening flowerpot drip irrigation system of claim 3,

the pipe body is also provided with second overflow holes, the number of the second overflow holes is matched with that of the reinforcing ribs, the second overflow holes are arranged between every two adjacent reinforcing ribs, and the aperture of each second overflow hole is smaller than that of each first overflow hole.

5. The vertical greening flowerpot drip irrigation system as defined in any one of claims 1 to 4,

and a concave-convex structure is arranged at the water outlet of the drip irrigation pipe hole.

6. The vertical greening flowerpot drip irrigation system of claim 5,

the height of the overflow pipe hole exceeds that of the drip irrigation pipe hole, and the height exceeding range is 2 mm-5 mm.

7. The vertical greening flowerpot drip irrigation system of claim 6,

a plurality of uniformly distributed second water permeable holes are further formed in the outer edge of the bottom of the inner basin, and the shortest straight-line distance from the centers of the second water permeable holes to the bottom of the inner basin is smaller than the height of the drip irrigation pipe hole.

8. The vertical greening flowerpot drip irrigation system of claim 7,

the flowerpot assembly further comprises fixing pieces, the number of the fixing pieces is at least four, each fixing piece is integrally formed with the inner pot, and each fixing piece is clamped on the side wall of the outer pot.

9. The vertical greening flowerpot drip irrigation system of claim 8,

and U-shaped grooves are formed in the outer edge of the side wall of each outer basin.

10. The vertical greening flowerpot drip irrigation system of claim 9,

the mounting bracket includes support body and locating part, the support body with outer basin can dismantle the connection, the one end of locating part with support body fixed connection, the other end of locating part runs through the lateral wall of outer basin, the stopper is the setting of L type structure.

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