CN221710591U - Planting basin and landscape building - Google Patents

Abstract

The application relates to the technical field of landscape greening, in particular to a planting pot and a landscape building. The planting pot includes: the planting pot comprises a lower pot body, a first water storage cavity, a first opening and a second opening, wherein the first opening and the second opening are communicated with the water storage cavity and face upwards, and the first opening and the second opening are separated from each other in the overlook direction of the planting pot; the two upper pot bodies are supported by the lower pot body and respectively cover the first opening and the second opening, and are separated from each other in the overlook direction of the planting pot, so that a water inlet gap communicated with the water storage cavity is formed between the two upper pot bodies, and the upper pot body is provided with a planting cavity and a first bottom wall which defines the lower boundary surface of the planting cavity; a water absorbing strip extending through the first bottom wall in the planting chamber and the water storage chamber for guiding water in the water storage chamber into the planting chamber.

Description

Planting basin and landscape building

Technical Field

The application relates to the technical field of landscape greening, in particular to a planting pot and a landscape building.

Background

A plant pot is an appliance for planting vegetation such as flowers to form a pot, which is used in a large amount in a greening landscape.

The planting pot provided by the related art comprises an upper pot body and a lower pot body for supporting the upper pot body, wherein the upper pot body is used for containing soil, the bottom of the upper pot body is provided with a through hole, and the lower pot body is used for containing water. Vegetation is planted in the soil of the upper basin body, and the root of the vegetation extends into the lower basin body from the through hole to be contacted with water. However, such planter pots suffer from at least the following disadvantages:

1. soil in the upper basin body falls into water of the lower basin body under the action of self gravity (especially when the upper basin body is rocked), so that the soil is lost.

2. When water is deficient, if water is directly supplied to the upper basin body, the downward loss of soil is easy to cause, and the supplied water cannot rapidly flow into the water storage cavity of the lower basin body due to the blockage of the soil, so that the water supply efficiency is low. Therefore, it is generally necessary to take down the upper tub and directly inject the soil into the opened lower tub, but this not only increases the workload of the user, but also may cause soil to drop into the environment from the through-hole after the upper tub is taken down, resulting in poor user experience.

3. Such pots are generally only suitable for water-absorbing vegetation and are not suitable for vegetation where the roots cannot be immersed directly in water.

Disclosure of Invention

In view of the above, the present application provides a planting pot and a landscape architecture for solving at least one of the above problems.

In a first aspect, the present application provides a planting pot comprising:

The planting pot comprises a lower pot body, a first water storage cavity, a first opening and a second opening, wherein the first opening and the second opening are communicated with the water storage cavity and face upwards;

The two upper pot bodies are supported by the lower pot body and respectively cover the first opening and the second opening, and are separated from each other in the overlook direction of the planting pot, so that a water inlet gap communicated with the water storage cavity is formed between the two upper pot bodies, and the upper pot body is provided with a planting cavity and a first bottom wall which defines the lower boundary surface of the planting cavity;

A water absorbing strip extending through the first bottom wall in the planting chamber and the water storage chamber for guiding water in the water storage chamber into the planting chamber.

In some possible embodiments, the lower tub has:

a second bottom wall defining a lower boundary surface of the water storage chamber;

Two inner support walls extending upwardly from the second bottom wall in spaced relation to each other within the water storage chamber and below the water inlet gap, thereby forming a water outlet gap therebetween in direct communication with the water inlet gap;

Each internal supporting wall is provided with a water passing hole for communicating the water passing gap with the water storage cavity.

In some possible embodiments, one of the two inner support walls defines a portion of the first opening and the other of the two inner support walls defines a portion of the second opening.

In some possible embodiments, the top end of the inner support wall has a stepped portion having a horizontal stepped surface, and a vertical stepped surface vertically erected above the horizontal stepped surface, wherein a portion of the upper tub is supported on the horizontal stepped surface, and the vertical stepped surface is in contact with the upper tub to prevent the upper tub from moving in a horizontal direction.

In some possible embodiments, the upper tub and the lower tub are integrally molded structures, respectively, and the inner support wall is plate-shaped and linearly extends along another horizontal direction perpendicular to the horizontal direction.

In some possible embodiments, the water absorbing strip is a flexible structure and extends to the second bottom wall.

In some possible embodiments, the upper tub has a first sidewall extending upwardly from a periphery of the first bottom wall, the first sidewall defining a peripheral side surface of a planting cavity;

The first side wall is provided with a through drain hole, the height of the drain hole is higher than that of the first bottom wall, and the planting cavity is communicated with the water inlet gap.

In a second aspect, the present application provides a potting comprising:

The planter according to the first aspect;

Soil filled in the planting cavity of the upper pot body and burying a part of the water absorbing strip;

Water is positioned in the water storage cavity of the lower basin body and submerges the other part of the water absorption strip;

vegetation, planted in the soil.

In a third aspect, the present application provides a landscape architecture comprising a plurality of potting as described in the second aspect.

In some possible embodiments, the landscape architecture is a road, and the plurality of potting plants are arranged along an extending direction of the road.

The planting pot provided by the application comprises: the planting pot comprises a lower pot body, a first water storage cavity, a first opening and a second opening, wherein the first opening and the second opening are communicated with the water storage cavity and face upwards; the two upper pot bodies are supported by the lower pot body and respectively cover the first opening and the second opening, and are separated from each other in the overlook direction of the planting pot, so that a water inlet gap communicated with the water storage cavity is formed between the two upper pot bodies, and the upper pot body is provided with a planting cavity and a first bottom wall which defines the lower boundary surface of the planting cavity; a water absorbing strip extending through the first bottom wall in the planting chamber and the water storage chamber for guiding water in the water storage chamber into the planting chamber. In this way, when the pot using the planting pot lacks water, especially in a rainy season, an operator can fill the water inlet gap of the pot with water, and the filled water can rapidly flow into and fill the water storage cavity of the lower pot body. Such moisturizing operation, on the one hand, need not to remove the basin body of going up, saved the manual work and promoted moisturizing efficiency, on the other hand, compare in the mode of direct moisturizing to planting the chamber, this moisturizing mode helps restraining the downward loss of planting soil to can let water flow into the water storage chamber of below more fast thereby promote moisturizing efficiency. In addition, when the outdoor potted plant is in a rainy, especially gust, environment, rainwater can quickly flow into the water storage cavity of the lower pot body through the water inlet gap in a less-blocking manner, so that the water storage cavity can obtain more supplementing water in a short period of time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the following brief description of the drawings of the embodiments will make it apparent that the drawings in the following description relate only to some embodiments of the present application and are not limiting of the present application.

Fig. 1 is an elevation cutaway schematic view of a potting provided in an embodiment of the application.

Fig. 2 is a schematic view of the structure of the plant pot of fig. 1.

Fig. 3 is an exploded schematic view of the plant pot of fig. 2.

Fig. 4 is a schematic top view of fig. 2.

Fig. 5 is a schematic top view of the lower basin of fig. 1.

FIG. 6 is a schematic diagram of the arrangement of a plurality of the pot plants shown in FIG. 1.

Reference numerals illustrate:

1-an upper basin body, 11-a planting cavity, 12-a first bottom wall, 13-a first side wall and 131-a drain hole;

2-a lower basin body, 21-a first opening, 22-a second opening, 23-a water storage cavity, 24-a water running gap, 25-an inner supporting wall, 251-a step part, 251A-a horizontal step surface, 251B-a vertical step surface, 252-a water running hole, 26-a second bottom wall and 27-a second side wall;

3-a water absorbing strip;

4-soil;

5-water surface;

And 6, water inlet gap.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present application. It will be apparent that the described embodiments are some, but not all, embodiments of the application. All other embodiments, which can be made by a person skilled in the art without creative efforts, based on the described embodiments of the present application fall within the protection scope of the present application. It is to be understood that some of the technical means of the various embodiments described herein may be interchanged or combined without conflict.

In the description of the present application, the terms "first," "second," and the like, if any, are used merely to distinguish between the described objects and do not have any sequential or technical meaning. Thus, an object defining "first," "second," etc. may explicitly or implicitly include one or more such objects. Also, the terms "a" or "an" and the like do not denote a limitation of quantity, but rather denote the presence of at least one, and "a plurality" of "are used to indicate no less than two.

In the description of the present application, the terms "coupled," "engaged," "mounted," "secured," "contacting," "supported," "received," and the like are to be construed broadly. For example, "connected" may be connected in a split manner, or may be integrally connected; can be directly connected or indirectly connected through an intermediate medium; can be connected in a non-detachable way or in a detachable way; can be mechanically or electrically connected; it is also possible that the two elements are in communication inside or in interaction with each other. For another example, the "abutting" may be direct abutting or indirect abutting through an intermediate medium. For another example, "accommodated" does not necessarily mean that the whole is completely accommodated, and the concept also includes a case of partial accommodation in which a part protrudes outside. The term "A is within B" means that A is entirely within B, or that part A is within B. The specific meaning of the aforementioned terms in the present application can be understood by those skilled in the art according to the specific circumstances.

Reference in the specification to "one embodiment" or "some embodiments" or the like means that a particular feature, structure, or characteristic described in connection with the embodiment is included in one or more embodiments of the application. Thus, appearances of the phrases "in one embodiment," "in some embodiments," "in other embodiments," and the like in the specification are not necessarily all referring to the same embodiment, but mean "one or more but not all embodiments" unless expressly specified otherwise.

Fig. 1 to 6 illustrate a pot including a plant pot and vegetation (e.g., flowers) planted in the plant pot according to an embodiment of the present application.

The planting pot comprises a lower pot body 2, two upper pot bodies 1 and a plurality of water absorption strips 3.

The lower tub 2 has a water storage chamber 23, a first opening 21 and a second opening 22 which communicate with the water storage chamber 23 and face upward. The first opening 21 and the second opening 22 are spaced apart from each other in a top view of the planting pot (i.e., when viewed in a downward direction in fig. 1). More specifically, the lower tub 2 is an integrally molded structure that is rectangular in a top view and has a second bottom wall 26, and a rectangular annular second side wall 27 extending upward from an outer edge of the second bottom wall 26. The aforementioned water storage chamber 23 is defined by the second bottom wall 26 and the second side wall 27, wherein the second bottom wall 26 defines a lower boundary surface of the water storage chamber 23 and the second side wall 27 defines a peripheral side surface of the planting chamber 11.

Both upper tub 1 are supported by the lower tub 2 and cover the first opening 21 and the second opening 22, respectively. The two upper pots 1 are spaced apart from each other in a top view of the planting pot, so that a water inlet gap 6 communicating with the water storage chamber 23 is formed between the two upper pots 1. The upper tub 1 is an integrally molded structure, rectangular in a top view, and has a first bottom wall 12, a rectangular annular first side wall 13 extending upward from an outer edge of the first bottom wall 12, and a planting chamber 11 defined by the first bottom wall 12 and the first side wall 13, wherein the first bottom wall 12 defines a lower boundary surface of the planting chamber 11, and the first side wall 13 defines a peripheral side surface of the planting chamber 11.

The water absorbing strip 3 extends through the first bottom wall 12 in the planting chamber 11 and the water storage chamber 23 for guiding water in the water storage chamber 23 into the planting chamber 11. The water absorbing strip 3 may be a flexible fibrous cloth or sponge, and in practice, the water absorbing strip 3 of this configuration is capable of absorbing water in the water storage chamber 23 and directing its absorbed water up to the planting chamber 11 based on capillary forces.

Referring again to fig. 1, the planting chamber 11 of the upper tub 1 is filled with soil 4, and a portion (upper portion) of the water absorbing strip 3 is buried by the soil 4. The water is temporarily stored in the water storage chamber 23 of the lower tub 2 and the other part (lower part) of the water absorbing strip 3 is immersed. The roots of the vegetation are planted in the soil 4, and the trunk of the vegetation protrudes from the upper opening of the upper pot 1. Thereby, the water in the water storage chamber 23 is slowly supplied to the soil 4 above via the water absorbing strip 3 and thereby to the roots of the vegetation.

The lower tub 2 has two inner support walls 25 extending upwardly from a second bottom wall 26 within the water storage chamber 23 and spaced apart from each other below the aforesaid water inlet gap 6, so that a water outlet gap 24 is formed between the two inner support walls 25 in direct communication with the aforesaid water inlet gap 6. Furthermore, each inner support wall 25 has a through water passage 252, the water passage 252 connecting the water passage gap 24 with the water storage chamber 23.

Of the two inner support walls 25 described above, the inner support wall 25 on the left side defines a portion of the first opening 21, and the inner support wall 25 on the right side defines a portion of the second opening 22.

The tip end of the inner support wall 25 has a step portion 251, the step portion 251 having a horizontal step surface 251A, and a vertical step surface 251B standing vertically above the horizontal step surface 251A. A portion of the upper tub 1 is supported on the horizontal step surface 251A to define a position of the upper tub 1 in the vertical direction. The vertical step surface 251B contacts the upper tub 1 to prevent the upper tub 1 from moving left or right in a horizontal direction (i.e., to define a position of the upper tub 1 in the horizontal direction), and more particularly, the vertical step surface 251B on the left inner support wall 25 in fig. 1 prevents the upper tub 1 on the left from moving in a horizontal right direction, and the vertical step surface 251B on the right inner support wall 25 prevents the upper tub 1 on the right from moving in a horizontal left direction. In practice, as shown in fig. 6, a plurality of potting plants with such a configuration may be arranged in close proximity from left to right, so that the left and right sides of the upper pot body 1 may be ensured to be blocked and limited by the vertical step surface 251B and the adjacent potting plants, respectively, so as to stabilize the position of the upper pot body 1 in the left and right direction.

In practice, the potting may be placed in an open air environment such as an open air garden of a landscape architecture. When the pot is deficient in water, particularly in a rainy season, an operator can fill the water inlet gap 6 of the pot with water, and the filled water can rapidly flow into and fill the water storage cavity 23 of the lower pot 2. Such moisturizing operation, on the one hand, need not to remove upper basin body 1, has saved the manual work and has promoted moisturizing efficiency, on the other hand, compare in the mode of direct moisturizing to planting chamber 11, this moisturizing mode helps suppressing planting soil 4's downward loss to can let water flow into the water storage chamber 23 of below more fast thereby promote moisturizing efficiency. In addition, when the outdoor potting is in a rainy, particularly gust, environment, rainwater can rapidly flow into the water storage chamber 23 of the lower pot 2 (compared to the soil 4) through the water inlet gap 6 with little obstruction, thereby enabling the water storage chamber 23 to obtain more makeup water in a short period of time.

Considering that water is inevitably directly introduced into the planting cavity 11 of the upper basin body 1 in the process of artificial water replenishment or rainfall water replenishment, when the water amount introduced into the planting cavity 11 is large, if the water cannot be released, damage to vegetation is possibly caused, but if the excessive water in the planting cavity 11 is discharged by adopting a traditional mode of forming a water leakage hole on the first bottom wall 12, the soil 4 is easily lost downwards (the soil 4 is easily introduced into the water storage cavity 23 below through the water leakage hole under the action of self gravity). In this regard, in the present embodiment, the first side wall 13 of the upper bowl body 1 is provided with a through drain hole 131, and the drain hole 131 is higher in height than the first bottom wall 12 and communicates the planting chamber 11 with the water inlet gap 6. In this way, when the amount of water entering the planting chamber 11 is large, the water can flow into the water storage chamber 23 via the lateral drain hole 131 on the first sidewall 13, and the downward loss of the soil 4 is not easily caused.

Referring to fig. 1 to 5, in the present embodiment, the inner support wall 25 is plate-shaped and extends linearly along another horizontal direction perpendicular to the horizontal direction.

In this embodiment, each flexible water absorbing strip 3 is a second bottom wall 26 extending to the lower basin 2. With this configuration, even if the water level in the water storage chamber 23 is low, the water absorbing strip 3 can guide water to the soil 4 above.

In addition, the embodiment of the application also provides a landscape building, which is a road, wherein the road comprises a plurality of potted plants with the configuration, and the plurality of potted plants are arranged next to each other along the extending direction of the road. The aforementioned road is illustratively an open-air landscape road in modern gardens.

Claims (9)

1. A planting basin, which comprises a basin body, characterized by comprising the following steps:

The planting pot comprises a lower pot body, a first water storage cavity, a first opening and a second opening, wherein the first opening and the second opening are communicated with the water storage cavity and face upwards;

The two upper pot bodies are supported by the lower pot body and respectively cover the first opening and the second opening, and are separated from each other in the overlook direction of the planting pot, so that a water inlet gap communicated with the water storage cavity is formed between the two upper pot bodies, and the upper pot body is provided with a planting cavity and a first bottom wall which defines the lower boundary surface of the planting cavity;

A water absorbing strip extending through the first bottom wall in the planting chamber and the water storage chamber for guiding water in the water storage chamber into the planting chamber.

2. The planter in accordance with claim 1, wherein the lower basin body has:

a second bottom wall defining a lower boundary surface of the water storage cavity;

Two inner support walls extending upwardly from the second bottom wall in spaced relation to each other within the water storage chamber and below the water inlet gap, thereby forming a water outlet gap therebetween in direct communication with the water inlet gap;

Each internal supporting wall is provided with a water passing hole for communicating the water passing gap with the water storage cavity.

3. The planter according to claim 2, wherein one of the two inner support walls defines a portion of the first opening and the other of the two inner support walls defines a portion of the second opening.

4. A planting pot according to claim 3, wherein the top end of the inner support wall has a stepped portion having a horizontal stepped surface and a vertical stepped surface erected vertically above the horizontal stepped surface, wherein a portion of the upper pot body is supported on the horizontal stepped surface, the vertical stepped surface being in contact with the upper pot body to prevent the upper pot body from moving in a horizontal direction.

5. The planting pot of claim 4, wherein the upper pot body and the lower pot body are integrally molded structures, respectively, and the inner support wall is plate-shaped and linearly extends along another horizontal direction perpendicular to the horizontal direction.

6. The planter of claim 2 wherein the water absorbing strip is a flexible structure and extends to the second bottom wall.

7. The planter according to claim 1, wherein the upper basin body has a first sidewall extending upwardly from a periphery of the first bottom wall, the first sidewall defining a peripheral side surface of the planting cavity;

The first side wall is provided with a through drain hole, the height of the drain hole is higher than that of the first bottom wall, and the planting cavity is communicated with the water inlet gap.

8. A landscape architecture comprising a plurality of planter pots according to any one of claims 1 to 7.

9. The landscape architecture of claim 8 wherein the landscape architecture is a road and the plurality of plant pots are arranged along an extension direction of the road.