CN209787976U - Self-water-absorbing flowerpot - Google Patents

Abstract

The utility model discloses a self-water-absorption flowerpot, including the ponding basin, the built-in planting basin that is equipped with of ponding basin has laid the hole that leaks on planting the basin, has installed catchment ring and soft ring and the soft one end that the ring set up at catchment ring between ponding basin and the planting basin. Upwards stimulate the counter weight ring, pull out the cooperation space of clamping ring and soft ring from the ponding basin and planting basin, can follow the ponding basin and plant the cooperation space's of basin upper port and add water, through the intra-annular porous structure of catchment, do benefit to and collect moisture, then insert the last port of ponding basin and planting basin's cooperation space with soft ring again, through the counter weight ring, multiplicable clamping ring drives soft ring and supports pressure down, thereby increase to the intra-annular pressure of catchment, can make catchment intra-annular water leading-in to the hole that leaks fast, can be with the water that spills in the hole that leaks permeate in the nutrition laterite of little discharge fast to its inside parcel through the infiltration layer, can make the plant roots in the nutrition laterite receive water fast.

Description

self-water-absorbing flowerpot

Technical Field

The utility model relates to a self-water-absorbing flowerpot.

Background

The flowerpot, a household utensils that kind of flower was used, for the big end of mouth end little round platform or the frustum of a pyramid shape, the flowerpot form of planting flowers is various, and is not of uniform size, and flower producer or the personage of growing flower can choose for use the flowerpot according to the characteristic and the needs of flowers and the characteristics of flowerpot, and is different according to the preparation material, can divide into a lot of.

In order to meet actual needs, a lot of self-priming flowerpot appear on the market, one of them is comparatively practical, the annular evenly is provided with the hole that leaks on planting the basin, set up one deck MBR membrane in planting the basin, be used for one-way inside water, can put into the nutrition laterite that is used for planting flowers and plants in planting the basin, can put into the basin with planting the basin, then put into water in the basin again, can permeate through in the hole that leaks can permeate water nutrition laterite, when nutrition laterite is soaked by water completely, laterite viscosity increases, the crack reduces in the soil, thereby can not continue to its inside infiltration, when plant roots absorbs partly with the water in the laterite, laterite viscosity reduces, the weak point of existence has: the self-water supply mode supplies water by adopting the self-weight of water, has low water supply speed, is only suitable for some plants with low water demand and cannot meet some plants with large water demand.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a self priming flowerpot to solve the slow problem of the water supply speed of proposing among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a self-priming flowerpot, includes the ponding basin, the built-in planting basin that is equipped with of ponding basin, laid the hole that leaks on the planting basin, ponding basin and plant and install catchment ring and soft ring setting in the one end of catchment ring between the basin, soft ring facial make-up is equipped with the clamping ring.

Preferably, the water leakage hole is of a circular hole-shaped structure.

Preferably, the inner wall of the planting pot is provided with a water seepage layer, the water seepage layer is of a circular cylindrical structure with openings at the upper end and the lower end, and the material is a PVDF film.

Preferably, the water catchment ring is of a circular annular structure and is made of sponge.

Preferably, the soft ring is of a circular ring plate structure.

Preferably, the compression ring is provided with a counterweight ring, and the counterweight ring is made of zirconia ceramics.

Compared with the prior art, the beneficial effects of the utility model are that: during the use, can plant the built-in nutrition laterite of basin, then plant the plant in nutrition laterite, upwards stimulate the counter weight ring, can pull out clamping ring and soft ring from the fitting space of ponding basin and planting basin, can follow the upper port of the fitting space of ponding basin and planting basin and add water, through the intra-annular porous structure of catchment, do benefit to and collect moisture, then insert soft ring into the upper port of the fitting space of ponding basin and planting basin again, through the counter weight ring, multiplicable clamping ring drives soft ring to support pressure downwards, thereby increase the intra-annular pressure of catchment, can make the intra-annular water of catchment lead in to the hole that leaks fast to leaking, can be with the water that spills in the hole that leaks fast to infiltration in the nutrition laterite of its inside parcel with the trickle through the infiltration layer, can make the plant root system in the nutrition laterite catch water fast, the slow problem of water supply speed has been solved.

Drawings

FIG. 1 is a partially cut-away front view of the present invention;

FIG. 2 is a schematic top view of the lower side of the present invention;

Fig. 3 is a schematic cross-sectional view of the outer pot and the soft plug of the present invention.

In the figure: 1 water-accumulating basin, 5 planting basins, 7 water leakage holes, 8 water seepage layers, 9 water converging rings, 10 soft rings, 11 pressure rings and 12 counterweight rings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, fig. 2 and fig. 3, the present invention provides a technical solution: a self-water-sucking flowerpot comprises a water collecting basin 1, wherein the water collecting basin 1 is of a round basin structure with an upper end open, a planting basin 5 is arranged in the water collecting basin 1, the planting basin 5 is of a round basin structure with an upward opening, the lower end of the planting basin is connected with the center of the inner lower end of the water collecting basin 1 in a resin adhesive bonding mode, water leakage holes 7 are distributed in the planting basin 5, the water leakage holes 7 are annularly and uniformly formed in the outer wall of the planting basin 5, the water leakage holes 7 are of a round hole-shaped structure, a water seepage layer 8 is arranged on the inner wall of the planting basin 5, the water seepage layer 8 is of a round barrel-shaped structure with an upper end open, the non-water leakage hole 7 area on the inner wall of the planting basin 5 is connected with the outer wall of the water seepage layer 8 in a resin adhesive bonding mode, water leaked in the water leakage hole 7 can permeate into nutrient red soil wrapped in the planting basin at a small flow through the water seepage layer 8, the inner, can prevent red soil particles from entering the matching space of the water collecting basin 1 and the planting basin 5.

Referring to fig. 1, 2 and 3, a water collecting ring 9 and a soft ring 10 are arranged between the water collecting basin 1 and the planting basin 5, the soft ring 10 is arranged at one end of the water collecting ring 9, the water collecting ring 9 is in a circular ring structure and made of sponge, the water collecting ring 9 is arranged between the water collecting basin 1 and the planting basin 5 and is in sliding fit with the inner wall of the water collecting basin 1 and the outer wall of the planting basin 5, when the water collecting ring 9 is not pressed, the upper end surface of the water collecting ring and the upper end surface of the water collecting basin 1 are on the same horizontal plane, the water collecting ring 9 is favorable for collecting water through the porous structure in the water collecting ring 9, when pressed, water can seep out from the porous structure, the soft ring 10 is in a circular ring plate structure, the inner wall and the outer wall of the soft ring 10 slightly press and contact the inner wall of the water collecting basin 1 and the outer wall of the planting basin 5, so that the soft ring 10 has certain sealing property with the matching space of the water collecting basin 1 and the planting basin 5 when, moisture can not flow upwards through the gap between the moisture and the matching of the catchment basin 1 and the planting basin 5, when the nutrient laterite is pulled upwards, the nutrient laterite is dried and loose, the nutrient laterite penetrates through the micropores and the water leakage holes 7 in the water seepage layer 8, air can be pumped into the space at the lower side of the soft ring 10 from the gap between the inner wall of the water seepage layer 8 and the edge of the laterite layer, the air can not enter the space at the lower side of the soft ring 10 to pull upwards and cannot move the soft ring 10, the soft ring 10 is provided with the press ring 11, the press ring 11 is of a circular ring structure with an opening at the upper end and the lower end, the matching space between the press ring 11 and the catchment basin 1 and the planting basin 5 is in sliding fit, the upper end of the press ring 11 is connected with the inner edge at the lower end of the counterweight ring 12 in a resin adhesive bonding mode, the sum of the gravity of the counterweight ring 12 and the press ring 11 is 17, the pressing ring 11 is provided with a balance weight ring 12, the balance weight ring 12 is made of zirconia ceramics, and the balance weight ring 12 has a smooth surface and good aesthetic property.

The utility model discloses when concrete implementation: when the device is used, the nutritional laterite can be filled in the planting pot 2, then plants are planted in the nutritional laterite, the counterweight ring 12 is pulled upwards, the press ring 11 and the soft ring 10 can be pulled out from the matching space of the water collecting pot 1 and the planting pot 5, water can be added from the upper end opening of the matching space of the water collecting pot 1 and the planting pot 5, the water collection is facilitated through the porous structure in the water collecting ring 9, then the soft ring 10 is inserted into the upper end opening of the matching space of the water collecting pot 1 and the planting pot 5, the press ring 11 can be increased to drive the soft ring 10 to abut against the pressure downwards through the counterweight ring 12, so that the pressure in the water collecting ring 9 is increased, the water in the water collecting ring 9 can be quickly led into the water leakage holes 7, the water leaked from the water leakage holes 7 can quickly permeate into the nutritional laterite wrapped in the nutritional laterite with small flow through the water seepage layer 8, the plant root system in the nutritional laterite can be quickly soaked until the viscosity in the nutritional water seepage layer 8 is increased and the water seepage layer can not permeate into the interior, pressing ring 11 and soft ring 10 stop pushing down, until moisture reduces slightly in the nutrition laterite and when laterite viscosity reduces, pressing ring 11 and soft ring 10 can push down fast, replenish moisture in the nutrition laterite fast, press into the mode in the nutrition laterite with water dead weight relatively, it is faster to supply water, be fit for some plants that demand for water is high, and to the plant that demand for water is not high, can pull out pressing ring 11 and soft ring 10 from amassing basin 1 and planting basin 5's fitting space, then pull out catchment ring 9 from amassing basin 1 and planting basin 5 can.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a self priming flowerpot, includes ponding basin (1), its characterized in that: the utility model discloses a plant basin, including ponding basin (1), planting basin (5), laid water leakage hole (7) on planting basin (5), ponding basin (1) and plant and install catchment ring (9) and soft ring (10) and set up the one end in catchment ring (9) between basin (5), soft ring (10) facial make-up is equipped with clamping ring (11).

2. The self-watering flowerpot according to claim 1, wherein: the water leakage holes (7) are in a circular hole-shaped structure.

3. The self-watering flowerpot according to claim 1, wherein: the inner wall of the planting pot (5) is provided with a water seepage layer (8), the water seepage layer (8) is of a circular cylindrical structure with an upper end and a lower end being open, and the material is a PVDF film.

4. The self-watering flowerpot according to claim 1, wherein: the water collecting ring (9) is of a circular annular structure and is made of sponge.

5. The self-watering flowerpot according to claim 1, wherein: the soft ring (10) is of a circular ring plate structure.

6. the self-watering flowerpot according to claim 1, wherein: the compression ring (11) is provided with a counterweight ring (12), and the counterweight ring (12) is made of zirconia ceramics.