CN216087840U - A components of a whole that can function independently combination formula flowerpot for campus afforestation - Google Patents

Abstract

The utility model discloses a split combined flowerpot for campus greening, which comprises a plurality of detachably connected flowerpot units, wherein any flowerpot unit comprises a pot body with a planting groove sunken downwards at the top, a bearing plate covers the middle part in the planting groove, and the bottom of the bearing plate and the inner wall of the pot body form a water collecting area; a water pipe I and a water pipe II are arranged at the bottom of the water collecting area; a plurality of water suction grooves are formed in the surface of the bearing plate downwards, two adjacent water suction grooves are communicated through a plurality of water guide grooves, and water suction strips I are filled in the water suction grooves and the water guide grooves; each tank bottom of the water absorption tank and the water diversion tank is provided with a plurality of support rods, and water absorption strips II are installed in the support rods. The utility model provides a split combined flowerpot for campus greening, which is simple in structure and convenient to disassemble and install, and water is supplied to the flowerpot units through a first water supply pipe and a second water supply pipe, so that the flowerpot units in the combined flowerpot are uniform in water distribution, and the planted plants are conveniently maintained and managed in a unified manner.

Description

A components of a whole that can function independently combination formula flowerpot for campus afforestation

Technical Field

The utility model relates to the field of flowerpots, in particular to a split combined flowerpot for campus greening.

Background

Greening refers to the activity of planting protection forests, roadside trees, crops, various plants in residential areas and parks and the like to improve the environment. The campus greening is an important component of campus cultural construction and infrastructure construction, and aims to improve campus environment, improve greening and beautifying level and create a beautiful, tidy and peaceful and comfortable teaching environment. The flowerpot is an important container for planting flowers and trees in campus greening.

In the prior art, a row of flowerpots are placed on a corridor of a teaching building and a balcony guardrail to play a role in beautifying, but the bottom of the existing flowerpots is generally provided with water leakage holes, after watering is carried out at the upper opening of the flowerpot, redundant water flows out from the water through holes at the bottom of the flowerpot, and the leaked water wets the wall surface and the ground of the balcony, so that the teaching environment is polluted, and the waste of water resources is caused; and because often lead to the plant lack of water in the flowerpot after weather conditions such as illumination, temperature influence, need water the flowerpot on the guardrail one by one, moisturizing complex operation.

SUMMERY OF THE UTILITY MODEL

An object of the present invention is to solve at least the above problems and/or disadvantages and to provide at least the advantages described hereinafter.

In order to solve the defects of the prior art, the utility model provides a split combined flowerpot for campus greening, which comprises a plurality of detachably connected flowerpot units, wherein any flowerpot unit comprises a pot body with a planting groove sunken downwards at the top, a bearing plate with a plurality of water leakage holes on the surface is covered at the middle part in the planting groove, and a water collecting area is formed between the bottom of the bearing plate and the inner wall of the pot body;

a water pipe I and a water pipe II are symmetrically arranged at pot bodies on two sides of the bottom of the water collecting area, and the water pipes II of two adjacent flowerpot units are detachably connected with the water pipe I;

a plurality of water absorption grooves distributed in a radial shape are formed in the surface of the bearing plate downwards, two adjacent water absorption grooves are communicated through a plurality of water diversion grooves, and water absorption strips I are filled in the water absorption grooves and the water diversion grooves; every the tank bottom that absorbs water groove, diversion channel all is equipped with a plurality of cavity structures and both ends open-ended bracing pieces that have, bracing piece bottom downwardly extending to water-collecting zone bottom, install in the bracing piece and absorb water strip two, two tops of strip that absorbs water with the strip that absorbs water first contact.

Preferably, the first water pipe and the second water pipe have the same caliber, a sealing convex shoulder is arranged at one end of the first water pipe, an anti-seepage convex shoulder is arranged at the two ends of the second water pipe, a clamping part is arranged at the edge of one side of the sealing convex shoulder far away from the pot body, and the shape of the clamping part and the sealing convex shoulder is matched with the shape of the anti-seepage convex shoulder; the outer peripheral surface of the clamping part is provided with a first screw hole, the corresponding position of the anti-seepage convex shoulder is provided with a second screw hole, and the fastening bolt penetrates through the first screw hole and the second screw hole to fix the first water pipe and the second water pipe of the adjacent pot bodies.

Preferably, the surface of one side of the sealing convex shoulder far away from the pot body is sunken with a plurality of annular sealing grooves, the plurality of sealing grooves are distributed on the sealing convex shoulder in a central radial manner, a convex ring matched with the sealing grooves is arranged at the corresponding position of the anti-seepage convex shoulder, and the surface of the convex ring is covered with a rubber sealing gasket.

Preferably, the upper surface of the water leakage hole is covered with a filter screen.

Preferably, the water collecting area is further connected with a drain pipe, and the drain pipe is positioned above the first water service pipe.

Preferably, the bottom end opening of the support rod is in a horn shape.

Preferably, the basin body on the surface of the water collecting area is provided with a visual transparent part.

The utility model at least comprises the following beneficial effects: neat and beautiful teaching environment

1. The combined flowerpot can integrate a plurality of flowerpot units through actual needs, is suitable for environments with different length specifications, and improves the applicability;

2. the water collecting area collects the excessive water leaked from the water leakage holes of the bearing plate in a centralized manner, so that the excessive water is prevented from directly flowing to the corridor and the wall surface of the balcony to influence the environment, and the cleanness and the attractiveness of the teaching environment are favorably ensured; the water absorbing strips II are matched with the water absorbing strips I, the water absorbing grooves and the water guide grooves together to convey water accumulated in the water collecting area to the upper part of the bearing plate, so that water sources are provided for flowers and trees above the bearing plate, the flowers and trees can grow normally, the water sources are saved, the waste of the water sources is avoided, frequent manual maintenance and watering can be avoided, and the waste of labor force and water resources is reduced; the water absorption grooves are distributed in a radial shape, so that the flower and tree soil can uniformly and comprehensively receive water, and the growth of the flowers and trees is promoted; the supporting rod enables the water absorbing strips II to be kept in a vertical state, so that water at the bottom of the water collecting area is transmitted to the water absorbing strips I through the water absorbing strips II, and the water absorbing strips I can wet soil to convey water for flowers and trees after absorbing water;

3. the water supply pipe I and the water supply pipe II are used for realizing installation and combination between two adjacent flowerpot units, and meanwhile, the water supply pipe I and the water supply pipe II can communicate two adjacent flowerpot unit water collection areas, so that the combined flowerpot is integrally communicated, water can be injected into any flowerpot unit to enable all the flowerpot units to be watered, the watering is simple and convenient, and meanwhile, the water in each flowerpot unit water collection area is uniformly distributed.

Drawings

Fig. 1 is a schematic structural view of a flowerpot unit of the present invention.

Fig. 2 is a partially enlarged structural view of a in fig. 1 according to the present invention.

Fig. 3 is a partially enlarged structural view of B in fig. 1 according to the present invention.

Fig. 4 is a partially enlarged structural view of C of fig. 1 according to the present invention.

Fig. 5 is a schematic top view of the load-bearing plate of the present invention.

Fig. 6 is a combined structure schematic diagram of the flowerpot unit and the flowerpot unit of the present invention.

Fig. 7 is a schematic view illustrating a structure of connecting a first water pipe of a flowerpot unit and a second water pipe of another flowerpot unit according to the present invention.

Reference numerals: 1-flowerpot unit, 2-planting groove, 3-pot body, 31-visual transparent part, 4-bearing plate, 41-water leakage hole, 42-filter screen, 5-water collecting area, 51-drain pipe, 6-water pipe I, 61-sealing convex shoulder, 62-clamping part, 62-sealing groove, 7-water pipe II, 71-anti-seepage convex shoulder, 73-convex ring, 8-water suction groove, 9-water guide groove, 10-water suction bar I, 11-support bar, 12-water suction bar II and 13-fastening bolt.

Detailed Description

The present invention is further described in detail below with reference to the attached drawings so that those skilled in the art can implement the utility model by referring to the description text.

It will be understood that terms such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

Fig. 1 to 7 show a split combined flowerpot for campus greening, which comprises a plurality of detachably connected flowerpot units 1, wherein any flowerpot unit 1 comprises a pot body 3 with a planting groove 2 sunken downwards at the top, a bearing plate 4 with a plurality of water leakage holes 41 formed on the surface is covered at the middle part in the planting groove 2, and a water collecting area 5 is formed between the bottom of the bearing plate 4 and the inner wall of the pot body 3;

the pot bodies 3 on two sides of the bottom of the water collecting area 5 are symmetrically provided with a first water pipe 6 and a second water pipe 7, and the second water pipes 7 of two adjacent flowerpot units are detachably connected with the first water pipe 6;

a plurality of water absorption grooves 8 distributed in a radial shape are formed in the surface of the bearing plate 4 downwards, two adjacent water absorption grooves 8 are communicated through a plurality of water diversion grooves 9, and water absorption strips I10 are filled in the water absorption grooves 8 and the water diversion grooves 9; every the tank bottom that absorbs water groove 8, diversion channel 9 all is equipped with a plurality of cavity structures and both ends open-ended bracing pieces 11 that have, 11 bottom downwardly extending of bracing piece to 5 bottoms in catchment area, install two 12 of the strip that absorb water in the bracing piece 11, two 12 tops of the strip that absorb water with the contact of strip that absorbs water 11.

In the technical scheme, a first water pipe 6 and a second water pipe 7 are integrally formed with the basin body 3 or welded on the basin body 3, the cross section of the basin body 3 can be circular, square or polygonal, the cross section of the planting groove 2 can be circular, square or polygonal, the shape of the planting groove 2 can be the same as that of the basin body 3 or different from that of the basin body 3, the shape of the bearing plate 4 is the same as that of the planting groove 2, the outer edge of the bearing plate 4 is welded on the inner wall of the basin body 3, the first water absorption strip 10 and the second water absorption strip 12 can be water absorption cotton slivers, and the water absorption cotton slivers are products in the prior art;

specifically, a plurality of flowerpot units 1 can be installed and combined into a whole through actual needs, the flowerpot is suitable for environments with different length specifications, the applicability is improved, a first water pipe 6 of one flowerpot unit 1 and a second water pipe 7 of the other flowerpot unit 1 between two adjacent flowerpot units 1 are fixedly connected to realize installation and combination, and the flowerpot is convenient to disassemble and install; the water collecting area 5 collects the excessive water leaked from the water leakage holes 41 of the bearing plate 4 in a centralized manner, so that the excessive water is prevented from directly flowing to the corridor and the balcony floor wall surface to influence the environment, and the cleanness and the attractiveness of the teaching environment are favorably ensured; the water absorbing strips II 12 are matched with the water absorbing strips I10, the water absorbing grooves 8 and the water guide grooves 9 together to convey water accumulated in the water collecting area 5 to the upper side of the bearing plate 4, so that water sources are provided for flowers and trees above the bearing plate 4, the flowers and trees can grow normally, the water sources are saved, the waste of the water sources is avoided, frequent manual maintenance and watering can be avoided, and the waste of labor force and water resources is reduced; the water absorption grooves 8 are distributed in a radial shape, so that the flower and tree soil can uniformly and comprehensively receive water, and the growth of the flowers and trees is promoted; the supporting rod 11 is arranged to enable the water absorbing strips II 12 to be kept in a vertical state, so that water at the bottom of the water collecting area 4 is transmitted to the water absorbing strips I10 through the water absorbing strips II 12, and the water absorbing strips I10 absorb water and then wet soil to convey water for flowers and trees; meanwhile, the water supply pipe I6 and the water supply pipe II 7 can communicate the water collecting areas 5 of the two adjacent flower disc units 1, so that the combined flowerpot is integrally communicated, water can be injected from any flowerpot unit 1 to enable all the flowerpot units 1 to be watered, watering is simple and convenient, and meanwhile, water in the water collecting areas 5 of all the flowerpot units 1 can be uniformly distributed.

In another example, the caliber of the first water pipe 6 is the same as that of the second water pipe 7, the end of the first water pipe 6 is provided with a sealing convex shoulder 61, the end of the second water pipe 7 is provided with an anti-seepage convex shoulder 71, the edge of one side, away from the pot body 3, of the sealing convex shoulder 61 is provided with a clamping part 62, and the shape formed by the clamping part 62 and the sealing convex shoulder 61 is matched with the shape of the anti-seepage convex shoulder 71; the outer peripheral surface of the clamping part 62 is provided with a first screw hole (not shown), the corresponding position of the anti-seepage shoulder 71 is provided with a second screw hole (not shown), and the fastening bolt 13 penetrates through the first screw hole and the second screw hole to realize the fixation of the first water pipe 6 and the second water pipe 7 of the two adjacent pot bodies 3. By adopting the scheme, the clamping part 62 and the sealing shoulder 61 are matched together to be tightly meshed with the anti-seepage shoulder 71, the fastening bolt 13 is further fixed, the anti-seepage shoulder 71 is prevented from falling off, and the water through pipe I6 of one of the two adjacent flowerpot units and the water through pipe II 7 of the other one of the two adjacent flowerpot units are stably installed and fixed and are convenient to detach.

In another example, a plurality of annular sealing grooves 63 are recessed in the surface of one side of the sealing shoulder 6 away from the tub body, the plurality of sealing grooves 63 are radially distributed on the sealing shoulder 6 in the center, a protruding ring 73 matched with the sealing grooves 63 is arranged on the corresponding position of the anti-seepage shoulder 7, and the surface of the protruding ring 73 is covered with a rubber gasket (not shown). By adopting the scheme, the convex ring 73 is inserted into the sealing groove 63, the convex ring 73 and the sealing groove 63 are matched to form a radial bending type blocking path, so that the blocking effect is blocked when water leaks outwards from the joint of the first water pipe 6 and the second water pipe 7, the connection sealing performance is ensured, the phenomenon that the teaching environment is polluted by water leakage at the joint of the first water pipe 6 and the second water pipe 7 is avoided, and the sealing performance can be further enhanced due to the elasticity of a rubber sealing gasket (not shown).

In another example, the upper surface of the water leakage hole 41 is covered with a screen 42. By adopting the scheme, the soil matrix above the bearing plate 4 is prevented from losing.

In another example, the water collecting area 5 is further connected with a water discharge pipe 51, and the water discharge pipe 51 is positioned above the water service pipe 6. With this arrangement, the drain pipe 51 is arranged to drain excess water from the water collection area, thereby preventing root rot of flowers and trees caused by excessive water level in the water collection area 5.

In another example, the bottom end of the support rod 11 is opened to form a trumpet. By adopting the scheme, the water at the bottom of the water collecting area 5 is smoothly absorbed by the second water absorbing strip 12.

In another example, the bowl 3 on the surface of the water collection area 5 is provided with a visible transparent part 31. By adopting the scheme, the water level condition in the pot body 3 can be observed conveniently.

While embodiments of the utility model have been described above, it is not limited to the applications set forth in the description and the embodiments, which are fully applicable to various fields of endeavor for which the utility model may be embodied and broadly described herein, it being recognized that the utility model is not limited to the specific details and illustrations contained herein as shown and described, since various modifications and changes may be made therein by those skilled in the art without departing from the general concept defined by the appended claims and their equivalents.

Claims (7)

1. A split combined type flowerpot for campus greening is characterized by comprising a plurality of detachably connected flowerpot units (1), wherein any flowerpot unit (1) comprises a flowerpot body (3) with a planting groove (2) sunken downwards from the top, a bearing plate (4) with a plurality of water leakage holes (41) formed in the surface is covered at the middle part in the planting groove (2), and a water collecting area (5) is formed by the bottom of the bearing plate (4) and the inner wall of the flowerpot body (3);

the pot bodies (3) on two sides of the bottom of the water collecting area (5) are symmetrically provided with a first water pipe (6) and a second water pipe (7), and the second water pipes (7) of two adjacent flowerpot units are detachably connected with the first water pipes (6);

a plurality of water absorption grooves (8) distributed in a radial shape are formed in the surface of the bearing plate (4) downwards, two adjacent water absorption grooves (8) are communicated through a plurality of water diversion grooves (9), and water absorption strips I (10) are filled in the water absorption grooves (8) and the water diversion grooves (9); every the tank bottom of groove (8), diversion channel (9) that absorb water all is equipped with a plurality of cavity structures and both ends open-ended bracing pieces (11) that have, bracing piece (11) bottom downwardly extending to catchment area (5) bottom, install in bracing piece (11) and absorb water two (12), absorb water two (12) tops with absorb water one (10) contact.

2. The split combined type flowerpot for campus greening according to claim 1, wherein the first water service pipe (6) and the second water service pipe (7) have the same caliber, the end of the first water service pipe (6) is provided with a sealing shoulder (61), the end of the second water service pipe (7) is provided with an anti-seepage shoulder (71), the edge of one side, away from the pot body (3), of the sealing shoulder (61) is provided with a clamping part (62), and the shape formed by the clamping part (62) and the sealing shoulder (61) is matched with the shape of the anti-seepage shoulder (71); the outer peripheral surface of the clamping part (62) is provided with a first screw hole, a second screw hole is formed in the corresponding position of the anti-seepage convex shoulder (71), and a fastening bolt (13) penetrates through the first screw hole and the second screw hole to fix the first water pipe (6) and the second water pipe (7) of the two adjacent pot bodies (3).

3. A split combined type flowerpot for campus greening according to claim 2, wherein a plurality of annular sealing grooves (63) are recessed in the surface of one side of the sealing shoulder (61) far away from the pot body (3), the plurality of sealing grooves (63) are radially distributed on the sealing shoulder (61) in the center, a protruding ring (73) matched with the sealing grooves (63) is arranged on the corresponding position of the seepage-proofing shoulder (71), and a rubber sealing gasket covers the surface of the protruding ring (73).

4. A split combined flowerpot for campus greening according to claim 1, wherein the upper surface of the water leakage hole (41) is covered with a strainer (42).

5. A split combined flowerpot for campus greening according to claim 1, wherein a drain pipe (51) is further connected to the water collecting area (5), and the drain pipe (51) is positioned above the water service pipe I (6).

6. A split combined flowerpot for campus greening according to claim 1, wherein the bottom opening of the supporting rod (11) is trumpet-shaped.

7. A split combined flowerpot for campus greening according to claim 1, wherein the pot body (3) on the surface of the water collecting area (5) is provided with a visual transparent part (31).

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