CN212087176U - Planting flowerpot - Google Patents

Abstract

The utility model belongs to the flowerpot technical field and discloses a planting flowerpot, which comprises a flowerpot body; the inner bottom wall of the flowerpot body is provided with water seepage holes; the water seepage holes are provided with detachable air and water seepage columns; a hollow porous column is arranged in the center of the air-permeable and water-permeable column; the permeable water seepage column and the porous column are filled with perlite. The utility model discloses a flowerpot is applicable to the planting of multiple flowers and uses, has that the water permeability is good, the gas permeability is strong, convenient characteristics of dismantling.

Description

Planting flowerpot

Technical Field

The utility model belongs to the technical field of the flowerpot, concretely relates to plant flowerpot.

Background

The flower pot (English name: flower pot) is a vessel for planting flowers, and is in the shape of an inverted round table or an inverted truncated pyramid with a large mouth and a small bottom; the bottom of the flowerpot is generally provided with water seepage holes for seeping out excessive water in the soil.

The existing flowerpot has the defects that the water seepage completely depends on the water seepage holes, the water seepage effect is poor, the air content in the soil is insufficient, and the root system growth of flowers in the flowerpot is not facilitated; in addition, the internal structure of the existing flowerpot is single, and the planting requirements of different flowers are difficult to meet.

SUMMERY OF THE UTILITY MODEL

In order to solve at least one of the technical problems existing in the prior art, the utility model aims to provide a planting flowerpot.

The utility model discloses the technical scheme who adopts does:

a planting flowerpot comprises a flowerpot body; the inner bottom wall of the flowerpot body is provided with water seepage holes; the water seepage holes are provided with detachable air and water seepage columns; a hollow porous column is arranged in the center of the air-permeable and water-permeable column; the permeable water seepage column and the porous column are filled with perlite.

Further, the air-permeable and water-permeable column comprises a column body with a hollow structure; the side wall of the column body is provided with a plurality of air-permeable and water-permeable holes; and a plurality of perlite is filled in the space between the column body and the porous column.

Furthermore, the particle size of the perlite is larger than the pore diameter of the air-permeable and water-permeable holes; the particle size of the perlite is larger than the aperture of the porous column; one end of the column body is provided with an external thread; the water seepage hole is provided with internal threads; the external thread is detachably connected with the internal thread; and the other ends of the column body and the porous column are respectively covered with an iron wire net.

Further, the water seepage hole is provided with a first porous cover; one end of the first porous cover is connected with the outer side of the bottom of the flowerpot through a hinge; the other end of the first porous cover is connected with the outer side of the bottom of the flowerpot through a fastener.

Further, the water seepage hole is provided with a second porous cover; the second porous cover is provided with a porous cover external thread; the external thread of the porous cover is detachably connected with the internal thread.

Further, the wire mesh is covered with non-woven fabrics.

Furthermore, the air-permeable and water-permeable holes are covered with air-permeable and water-permeable layers.

Further, the breathable water-permeable layer comprises a water absorption layer and a non-woven fabric layer which are sequentially connected; the water absorbing layer is connected with the air permeable and water permeating holes.

Furthermore, the height of the air-permeable and water-permeable column is 1/3-4/5 of the height of the flowerpot.

Further, a plurality of support legs are arranged at the bottom of the flowerpot body.

The utility model has the advantages that: the utility model discloses a flowerpot has realized that the flowerpot can be according to the planting demand of the flower of difference through the ventilative infiltration post of detachable, and selective will breathe freely and ooze water column and porous post and take off or load on, the utility model discloses a space between ventilative infiltration post and the porous post is through filling the pearlite, when having realized permeating water, has guaranteed certain space degree, makes the air of ventilative infiltration post below can pass through the porous post, then during the ventilative infiltration hole that sees through ventilative infiltration post gets into the flowerpot, realized that the infiltration is effectual, the gas permeability is good and satisfy the purpose of the planting demand of different flowers.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the air-permeable and water-permeable layer in fig. 1.

Fig. 3 is a bottom view of an embodiment of the present invention.

Fig. 4 is a bottom view of another embodiment of the present invention.

In the figure: 1-a flowerpot body; 2-iron wire netting; 3-permeable water column; 4-a leg; 5-a non-woven fabric layer; 6-water absorbing layer; 7-air permeable and water-permeable holes; 8-a fastener; 9-a first porous cap; 10-a hinge; 11-second porous cap, 12-porous column.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments.

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict.

In the description of the embodiments of the present invention, it should be further noted that unless otherwise explicitly stated or limited, the terms "disposed" and "connected" should be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; may be directly connected or indirectly connected through an intermediate. For those skilled in the art, the drawings of the present invention can be understood in detail to describe the embodiments of the present invention clearly and completely, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Example 1

A planting flowerpot comprises a flowerpot body; the inner bottom wall of the flowerpot body is provided with water seepage holes; the water seepage holes are provided with detachable air and water seepage columns; a hollow porous column is arranged in the center of the air-permeable and water-permeable column; the permeable water seepage column and the porous column are filled with perlite.

As shown in fig. 1-4, the flowerpot comprises a flowerpot body 1, wherein the bottom of the flowerpot body is provided with water seepage holes; the water seepage holes are provided with detachable air and water permeable columns 3, and perlite is filled in the space between the air and water permeable columns and the porous columns; the air-permeable and water-permeable column and the water-permeable hole can be in a fastener, a thread or other detachable connection modes, so that the air-permeable and water-permeable column can be conveniently detached from the water-permeable hole; perlite can be filled in the space between the air-permeable and water-permeable column and the porous column, and other particles made of hard materials can be filled in the space, so that certain water permeability and air permeability can be realized; perlite is preferred. The air-permeable and water-permeable column of the embodiment can be made of plastic, wood or stainless steel.

Preferably, the air-permeable and water-permeable column and the porous column are of an integral structure; the porous column is of a hollow structure, and the side wall of the porous column is similarly provided with a plurality of holes for ventilation and water seepage. Air can enter a plurality of gaps of perlite filled between the air-permeable and water-permeable column and the porous column from the center of the porous column, and further enter the soil in the flowerpot; the water in the flowerpot soil can enter the gaps of the filled perlite from the air-permeable water-permeable holes of the air-permeable water-permeable columns, and then enter the porous columns, and finally is discharged out of the flowerpot through the water-permeable holes.

Thereby, the flowerpot of this embodiment has realized the flowerpot through detachable ventilative infiltration water column that oozes the planting demand that the water column can be according to the flower of difference, and selective will breathe freely and ooze water column and porous post and take off or load on, the utility model discloses a space between ventilative infiltration water column and the porous post is through filling the pearlite, when having realized permeating water, has guaranteed certain porosity, makes the air of ventilative infiltration water column below can pass through the porous post, then during the ventilative infiltration hole that sees through ventilative infiltration water column gets into the flowerpot, realized that the infiltration is effectual, the gas permeability is good and satisfy the purpose of the planting demand of different flowers.

Example 2

A planting flowerpot comprises a flowerpot body; the inner bottom wall of the flowerpot body is provided with water seepage holes; the water seepage holes are provided with detachable air and water seepage columns; a hollow porous column is arranged in the center of the air-permeable and water-permeable column; the permeable water seepage column and the porous column are filled with perlite.

As shown in fig. 1-4, the flowerpot comprises a flowerpot body 1, wherein the bottom of the flowerpot body is provided with water seepage holes; the water seepage holes are provided with detachable air and water permeable columns 3, and perlite is filled in the space between the air and water permeable columns and the porous columns; the air-permeable and water-permeable column and the water-permeable hole can be in a fastener, a thread or other detachable connection modes, so that the air-permeable and water-permeable column can be conveniently detached from the water-permeable hole; perlite can be filled in the space between the air-permeable and water-permeable column and the porous column, and other particles made of hard materials can be filled in the space, so that certain water permeability and air permeability can be realized; perlite is preferred. The air-permeable and water-permeable column of the embodiment can be made of plastic, wood or stainless steel.

Preferably, the air-permeable and water-permeable column and the porous column are of an integral structure; the porous column is of a hollow structure, and the side wall of the porous column is similarly provided with a plurality of holes for ventilation and water seepage. Air can enter a plurality of gaps of perlite filled between the air-permeable and water-permeable column and the porous column from the center of the porous column, and further enter the soil in the flowerpot; the water in the flowerpot soil can enter the gaps of the filled perlite from the air-permeable water-permeable holes of the air-permeable water-permeable columns, and then enter the porous columns, and finally is discharged out of the flowerpot through the water-permeable holes.

Thereby, the flowerpot of this embodiment has realized the flowerpot through detachable ventilative infiltration water column that oozes the planting demand that the water column can be according to the flower of difference, and selective will breathe freely and ooze water column and porous post and take off or load on, the utility model discloses a space between ventilative infiltration water column and the porous post is through filling the pearlite, when having realized permeating water, has guaranteed certain porosity, makes the air of ventilative infiltration water column below can pass through the porous post, then during the ventilative infiltration hole that sees through ventilative infiltration water column gets into the flowerpot, realized that the infiltration is effectual, the gas permeability is good and satisfy the purpose of the planting demand of different flowers.

Preferably, in this embodiment, the air-permeable and water-permeable column includes a hollow column; the side wall of the column body is provided with a plurality of air-permeable and water-permeable holes 7; the space between the column and the porous column 12 is filled with perlite.

In order to prevent the perlite from leaking out of the air permeable and seepage holes and the holes of the porous columns and influencing the water permeable and air permeable effects; the particle size of the perlite is larger than the aperture of the air-permeable and water-permeable hole; the particle size of the perlite is larger than the aperture of the porous column; one end of the column body is provided with an external thread; the water seepage hole is provided with internal threads; the external thread is detachably connected with the internal thread; and the other ends of the column body and the porous column are respectively covered with an iron wire net.

The air-permeable and water-permeable column is of a hollow structure; a plurality of air permeable and water permeable holes 7 are formed in the side wall of the water permeable and water permeable column; the upper ends of the air-permeable and water-permeable column and the porous column are respectively provided with a wire netting 2; the hollow part of the porous column is communicated with the water seepage hole on the inner bottom wall of the flowerpot body.

The porous columns and the air-permeable and water-permeable columns are arranged to be hollow structures, so that the whole weight of the flowerpot is reduced, and meanwhile, water in the soil of the flowerpot is more favorably permeated into the air-permeable and water-permeable columns and the porous columns from the soil; the top of ventilative infiltration water column and porous post all is equipped with wire netting 2, and the wire netting can play the supporting role to soil again when guaranteeing the circulation of air in the ventilative infiltration water column.

When the air-permeable and water-permeable column needs to be taken down from the flowerpot, in order to ensure a certain water-permeable and air-permeable effect, a porous cover is also arranged on the water-permeable hole; the porous cover is water permeable and air permeable through a plurality of holes formed therein.

In one embodiment of the porous cover, the water seepage hole is provided with a first porous cover 9; one end of the first porous cover 9 is connected with the outer side of the bottom of the flowerpot through a hinge; the other end of the first porous cover is connected with the outer side of the bottom of the flowerpot through a fastener.

Specifically, as shown in fig. 3, the bottom of the water seepage hole is provided with a first porous cover 9; the right side of the first porous cover is provided with a hinge 10, and the first porous cover is connected with the bottom of the flowerpot body through the hinge 10; the left side of the first porous cover is connected with the bottom of the flowerpot body through a fastener 8; when the ventilative infiltration water column was pulled down from the infiltration hole, first porous lid rotated to the position that is close to the parallel with flowerpot body bottom around the pivot of hinge, and at this moment, the left side of first porous lid is passed through the buckle spare and is connected with flowerpot body's bottom.

In another embodiment of the porous cover, the water seepage hole is provided with a second porous cover 11; the second porous cover 11 is provided with a porous cover external thread; the external thread of the porous cover is detachably connected with the internal thread.

When the air-permeable and water-permeable column is detached from the water-permeable hole, the air-permeable and water-permeable column can be in threaded connection with the internal thread of the water-permeable hole through the external thread of the second porous cover; when the air-permeable and water-permeable column needs to be installed, the second porous cover is screwed down from the water-permeable hole.

Further, the wire mesh is covered with non-woven fabrics.

As a preferred embodiment, the wire mesh is covered with a non-woven fabric; by utilizing the property that the non-woven fabric is permeable but not permeable to soil, the soil can be effectively prevented from entering the permeable and water-permeable column through the wire mesh; thereby avoiding the loss of soil.

Furthermore, the air-permeable and water-permeable holes are covered with air-permeable and water-permeable layers. The breathable water-permeable layer comprises a water absorption layer and a non-woven fabric layer which are sequentially connected; the water absorbing layer is connected with the air permeable and water permeating holes.

In another preferred embodiment, the permeable and water-permeable holes are covered with permeable and water-permeable layers. Preferably, the air-permeable and water-permeable layer comprises a water absorption layer 6 and a non-woven fabric layer 5 which are connected in sequence; the water absorbing layer is connected with the air permeable and water permeating holes.

When the permeable water-permeable soil-water transfer agent is used, redundant moisture in soil is absorbed by the water absorption layer and enters the permeable water-permeable column, so that the redundant moisture in the soil can be transferred to the permeable water-permeable column in time; the non-woven fabric layer 5 can be contacted with the soil in the flowerpot to play a role in preventing the soil from blocking the water absorbing layer; preferably, the water-absorbing layer 6 is a sponge.

Furthermore, the height of the air-permeable and water-permeable column is 1/3-4/5 of the height of the flowerpot.

In another preferred embodiment, the height of the air and water permeable column is 1/3-4/5 of the height of the flowerpot; therefore, the air permeable and water permeable column has better air permeable and water permeable effect, is more favorable for the whole air permeability and water permeability of soil, and is more favorable for the growth of the root system of flowers.

Further, a plurality of support legs 4 are arranged at the bottom of the flowerpot body. In a preferred embodiment, the number of the legs 4 is three.

When the flower pot plants flowers, the soil required for planting flowers is fully filled in the flower pot. The soil is covered around the air-permeable and water-permeable column; when the soil is watered, redundant moisture in the soil permeates into the permeable seepage column and is discharged out of the flowerpot through the seepage hole at the bottom of the flowerpot, so that moderate moisture of the soil is ensured; when the soil does not need watering, due to the existence of the support legs, the outside air enters the air-permeable and water-permeable column through the water-permeable holes of the flowerpot body, and then the air-permeable and water-permeable column distributes the outside air into the soil; thereby ensuring the circulation of the air in the soil in the flowerpot and the outside air; thereby being more beneficial to the healthy growth of the roots of the planted flowers.

The present invention is not limited to the above-mentioned optional embodiments, and any other products in various forms can be obtained by anyone under the teaching of the present invention, and any changes in the shape or structure thereof, all the technical solutions falling within the scope of the present invention, are within the protection scope of the present invention.

Claims (10)

1. The utility model provides a plant flowerpot which characterized in that: comprises a flowerpot body; the inner bottom wall of the flowerpot body is provided with water seepage holes; the water seepage holes are provided with detachable air and water seepage columns; a hollow porous column is arranged in the center of the air-permeable and water-permeable column; the permeable water seepage column and the porous column are filled with perlite.

2. A planter pot according to claim 1, wherein: the air-permeable and water-permeable column comprises a hollow column body; the side wall of the column body is provided with a plurality of air-permeable and water-permeable holes; and a plurality of perlite is filled in the space between the column body and the porous column.

3. A planter pot according to claim 2, wherein: the particle size of the perlite is larger than the aperture of the air-permeable and water-permeable hole; the particle size of the perlite is larger than the aperture of the porous column; one end of the column body is provided with an external thread; the water seepage hole is provided with internal threads; the external thread is detachably connected with the internal thread; and the other ends of the column body and the porous column are respectively covered with an iron wire net.

4. A planter pot according to claim 3, wherein: the water seepage hole is provided with a first porous cover; one end of the first porous cover is connected with the outer side of the bottom of the flowerpot through a hinge; the other end of the first porous cover is connected with the outer side of the bottom of the flowerpot through a fastener.

5. A planter pot according to claim 3, wherein: the water seepage hole is provided with a second porous cover; the second porous cover is provided with a porous cover external thread; the external thread of the porous cover is detachably connected with the internal thread.

6. A planter pot according to claim 4 or claim 5, wherein: the non-woven fabric is covered on the wire gauze.

7. A planter pot according to claim 6, wherein: and the air-permeable and water-permeable holes are covered with air-permeable and water-permeable layers.

8. A planter pot according to claim 7, wherein: the breathable water-permeable layer comprises a water absorption layer and a non-woven fabric layer which are sequentially connected; the water absorbing layer is connected with the air permeable and water permeating holes.

9. A planter pot according to claim 8, wherein: the height of the air-permeable and water-permeable column is 1/3-4/5 of the height of the flowerpot.

10. A planter pot according to claim 9, wherein: the bottom of the flowerpot body is provided with a plurality of support legs.

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