Background technology
In recent years, because air pollution aggravates, the requirement of the air quality to living space for the people also becomes more and more higher.
Show through research, indoor air pollutants mainly include following six kinds, including benzene, formaldehyde, phthalate,
Trichloro ethylene, toluene and ammonia.At present at home in civil buildings standard, the content of indoor formaldehyde must not be higher than every cube 0.08 milli
Gram, the content of benzene must not be higher than 0.09 milligram every cube, and the content of ammonia must not be higher than 0.2 milligram every cubic metre.
In order to improve air quality, people remove plant miscellaneous and get in, for example, Folium Sansevieriae Trifasclatae, Monstera deliciosa, in vain
The palm, wood in thousand, banyan, bracketplant, Epipremnum aureum (Linde et Andre) (Bunting.), gold Pueraria lobota, venushair fern, silver-colored queen etc., it is planted in flowerpot and furnished in room
Interior.These potted plants show there is stronger ability for absorption indoor air pollutants through research, and such as Epipremnum aureum (Linde et Andre) (Bunting.) can absorb
Benzene, trichloro ethylene, formaldehyde etc..
However, inventor of the present utility model finds:Potted plant mainly passes through the dirts such as the formaldehyde of adsorption by soil in the air
Dye gas, and by the microbial decomposition dusty gass in soil.Potting soil is therefore kept well to breathe freely, for potted plant suction
Contracture solution indoor polluted gas play a key effect, but current flowerpot all makes it difficult for soil well to breathe freely and water-tight do not leak
Soil.
Utility model content
In view of this, a kind of energy is provided to keep the well ventilative and water-tight flowerpot not leaking soil to be necessary in fact.
A kind of side wall permeable flower pot is it is characterised in that the side wall of described side wall permeable flower pot is provided with air-vent, described ventilative
The edge in hole extends inwardly downward, forms an endoporus, the horizontal level of the peak on upper edge of described endoporus is less than described
The horizontal level of the minimum point of the lower edge of pore;Or
The edge of described air-vent outwards upwardly extends, and forms an exit orifice, the peak on upper edge of described air-vent
Horizontal level is less than the horizontal level of the minimum point of lower edge of described exit orifice;Or
The edge of described air-vent extends inwardly downward, outwards upwardly extends simultaneously, forms an endoporus and an exit orifice,
The horizontal level of the peak on upper edge of described endoporus is less than the horizontal level of the minimum point of lower edge of described exit orifice.
With respect to the existing flowerpot structure breathed freely using bottom through-hole, using side of the present utility model wall permeable flower pot,
At the air-vent of side wall, because described air-vent has an oblique hole structure, interior low outer height, so being not result in that soil spills, and
When watering into flowerpot, through flowerpot sidewall air-vent current only can along flowerpot sidewall be downward through air-vent continue to
Dirty, flow out from described air-vent upwards without turning round.
And air is different from soil and water, its diffusion is simultaneously non-directional, so extraneous air can be through described air-vent
Inwardly contact with the soil in flowerpot downwards, and permeate into soil further, ventilative inside and outside realization.
In one embodiment, through hole is arranged at the bottom of described side wall permeable flower pot, is inserted with the water suction running through up and down in through hole
Post, the bottom of described side wall permeable flower pot is arranged below water tank, and the upper end of described water suction post is inserted in the soil in flowerpot, inhales
In the lower end insertion water tank of water column.Such beneficial outcomes are that unnecessary water energy in flowerpot enough flows to water dish through water suction post
In, allow water dish accommodate unnecessary water, more slowly water is guided in flowerpot soil by capillarity, one can avoid pouring
Many blisters root, two can once pour a lot of water.
In one embodiment, described water suction post is micropore hydrating structure.
In one embodiment, described water dish is Transparent Parts.Such beneficial outcomes can be by water dish and see
The water level of the inside, thus very easily judge potted plant whether hydropenia.
In one embodiment, described water dish side wall is provided with the water inlet of upward opening.Such beneficial outcomes are can
Inwardly to water by water inlet, it is to avoid facing down to water from potted plant soil upper table leads to soil compaction, improve potting soil
Overall air permeability.
With respect to prior art, using side of the present utility model wall permeable flower pot, the soil near air-vent can be allowed to connect
Contact extraneous air, be avoided that the soil within flowerpot and water are spilt by air-vent again.This utility model increased in flowerpot
Soil and the contact surface of air, beneficial to dusty gass such as the formaldehyde in potting soil ingress of air, thus lifted in maximum efficiency
Potted plant absorption decomposes dusty gass, improves the ability of ambient air quality.
Specific embodiment
Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is carried out
Clearly and completely describe.
First embodiment:
Refer to Fig. 1, Fig. 1 is the tangent plane schematic diagram of the side wall permeable flower pot 100 that this utility model first embodiment provides.
The side wall 10 of described side wall permeable flower pot 100 has an air-vent 20, the edge of described air-vent 20 downwards to
Extend in (flowerpot), form an endoporus 30.On endoporus 30, the horizontal level of the peak along 31 is less than described air-vent 20
The minimum point of lower edge 24 horizontal level.
So, air-vent 20 possesses interior low outer high oblique hole structure, increased an endoporus 30, endoporus 30 inside it
Less than air-vent 20.
In the present embodiment, air-vent 20 is circular hole, and in other embodiments, air-vent 20 can also be square hole or other shapes
Shape, is not so limited.
In the present embodiment, the side wall 10 of side wall permeable flower pot 100 is annular, and its shape can also be other shapes, such as
Tetragon, hexagon etc., can also be up big and down small, or up-small and down-big it is not limited to specific embodiment.
It is provided only with an air-vent 20 in the present embodiment.As a rule, on the side wall 10 of a side wall permeable flower pot
It is provided with multiple air-vents 20.
The side wall permeable flower pot of the present embodiment, when using, one side side wall 10 is breathable, on the other hand can prevent
Overflow when watering, when potted plant soil upper surface waters, water can be downward through through endoporus 30, without from air-vent 20
Flow out, eventually flow to the bottom of described side wall permeable flower pot 100.Air-vent 20 increased the marginal portion of soil and connecing of air
Touch, namely increased the breathability of soil, decompose the dusty gass of in the air beneficial to soil and microorganism adsorption, thus maximum effect
The lifting of rate ground is potted plant to absorb the efficiency decomposing dusty gass.
Second embodiment:
Refer to Fig. 2, Fig. 2 is the tangent plane schematic diagram of the side wall permeable flower pot 200 that this utility model second embodiment provides.
The side wall 10 of described side wall permeable flower pot 200 has an air-vent 20, and the edge of described air-vent 20 is to (flower
Basin) upwardly extend outward, form an exit orifice 40.On air-vent 20, the horizontal level of the peak along 23 is less than under exit orifice 40
Horizontal level along 41 minimum point.
So, air-vent 20 possesses interior low outer high oblique hole structure, increased an exit orifice 40, air-vent outside it
20 are less than exit orifice 40.
In the present embodiment, air-vent 20 is circular hole, and in other embodiments, air-vent 20 can also be square hole or other shapes
Shape, is not so limited.
In the present embodiment, the side wall 10 of side wall permeable flower pot 200 is annular, and its shape can also be other shapes, such as
Tetragon, hexagon etc., can also be up big and down small, or up-small and down-big it is not limited to specific embodiment.
It is provided only with an air-vent 20 in the present embodiment.As a rule, on the side wall 10 of a side wall permeable flower pot
It is provided with multiple air-vents 20.
The side wall permeable flower pot of the present embodiment, when using, one side side wall 10 is breathable, on the other hand can prevent
Overflow when watering, when potted plant soil upper surface waters, water can be downward through through air-vent 20, without flowing from exit orifice 40
Go out, eventually flow to the bottom of described side wall permeable flower pot 200.Air-vent 20 increased the marginal portion of soil and connecing of air
Touch, namely increased the breathability of soil, decompose the dusty gass of in the air beneficial to soil and microorganism adsorption, thus maximum effect
The lifting of rate ground is potted plant to absorb the efficiency decomposing dusty gass.
3rd embodiment:
Refer to Fig. 3, Fig. 3 is the tangent plane schematic diagram of the side wall permeable flower pot 300 that this utility model 3rd embodiment provides.
The side wall 10 of described side wall permeable flower pot 300 has an air-vent 20, and the edge of described air-vent 20 is to (flower
Basin) in extend downwardly, an endoporus 30;Meanwhile, the edge of described air-vent 20 also upwardly extends to outside (flowerpot), forms one
Exit orifice 40.On endoporus 30 along 31 peak horizontal level be less than exit orifice 40 lower edge 41 minimum point horizontal level.
So, air-vent 20 possesses interior low outer high oblique hole structure, and it includes an endoporus 30 and an exit orifice 40, interior
Hole 30 is less than exit orifice 40.
In the present embodiment, air-vent 20 is circular hole, and in other embodiments, air-vent 20 can also be square hole or other shapes
Shape, is not so limited.
In the present embodiment, the side wall 10 of side wall permeable flower pot 300 is annular, and its shape can also be other shapes, such as
Tetragon, hexagon etc., can also be up big and down small, or up-small and down-big it is not limited to specific embodiment.
It is provided only with an air-vent 20 in the present embodiment.As a rule, on the side wall 10 of a side wall permeable flower pot
It is provided with multiple air-vents 20.
The side wall permeable flower pot of the present embodiment, when using, one side side wall 10 is breathable, on the other hand can prevent
When watering overflow, when potted plant soil upper surface waters, water can be downward through through the endoporus 30 of air-vent 20, without from
Exit orifice 40 flows out, and eventually flows to the bottom of described side wall permeable flower pot 300.Air-vent 20 increased marginal portion and the sky of soil
The contact of gas, namely increased the breathability of soil, the dusty gass of in the air are decomposed beneficial to soil and microorganism adsorption, thus
Lift the potted plant efficiency absorbing and decomposing dusty gass in maximum efficiency.
Fourth embodiment:
Referring to Fig. 4, Fig. 4 is the tangent plane schematic diagram of the side wall permeable flower pot 400 that this utility model fourth embodiment provides.
In the present embodiment, compared with 3rd embodiment, increased water suction post 50 and water dish 60.In side wall permeable flower pot
400 bottom is provided with through hole, is inserted with water suction post 50 in described through hole.Water suction post 50 is micropore hydrating structure, can pass through capillary
Water is attracted to top from bottom by phenomenon, finally penetrates in flowerpot soil.
It should be pointed out that flowerpot bottom is advisable with being adapted between both with the size of water dish 60, it two
Assembling can also be realized and disassemble by buckle or screw structural between person.
In addition, in the present embodiment, described water dish 60 is Transparent Parts, checks its interior water accumulating volume with convenient use person,
Such that it is able to judge whether that needs carry out the operation that adds water.
The side wall permeable flower pot 400 of the present embodiment is when using, on the one hand, when potted plant soil upper surface waters, many
Remaining water from the bottom flowing to described side wall permeable flower pot 400, and can be continued in water tank 60 by the post 50 that absorbs water.So
Avoid the rotten situation that soil internal water accumulation brings.On the other hand, the hydrops in water tank 60 can also be by the post 50 that absorbs water, profit
With capillarity, slowly rise and penetrate in soil.
5th embodiment:
Refer to Fig. 5, this utility model the 5th embodiment provides a kind of side wall permeable flower pot 500, with fourth embodiment phase
Ratio increased the water inlet 61 of a water dish.
In other embodiments, multiple water inlets 61 can also be included.Or, water dish 60 can be bigger than flowerpot bottom,
Thus forming a circle water inlet 61.
Generally give pot water, be all to face down from potted plant soil upper table to water.So easily cause soil compaction.
After adding water suction post 50 and water dish 60, can directly be watered by water inlet 61.Soil so will not be washed away, it is to avoid soil
Earth is hardened, and this just can more preferably keep the breathability of soil.
The above is preferred implementation of the present utility model it is noted that ordinary skill for the art
For personnel, on the premise of without departing from this utility model principle, some improvements and modifications can also be made, these improve and moisten
Decorations are also considered as protection domain of the present utility model.