Background technology
In recent years, owing to air pollution aggravates, the requirement of the air quality of living space is also become more and more higher by people.
Showing after deliberation, indoor air pollutants mainly include following six kinds, including benzene, formaldehyde, phthalate, trichloro ethylene, toluene and ammonia. In current civil buildings standard at home, the content of indoor formaldehyde must not be higher than 0.08 milligram every cube, and 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 move into plant miscellaneous into indoor, for instance, Folium Sansevieriae Trifasclatae, Monstera deliciosa, slap in vain, wood in thousand, banyan, bracketplant, Epipremnum aureum (Linde et Andre) (Bunting.), gold Pueraria lobota, venushair fern, silver queen etc., be planted in flowerpot and furnish in indoor. These potted plants show there is stronger ability for absorption indoor air pollutants after deliberation, and such as Epipremnum aureum (Linde et Andre) (Bunting.) can absorb benzene, trichloro ethylene, formaldehyde etc.
But, the inventors found that: potted plant is mainly through dusty gass such as the formaldehyde in adsorption by soil air, and passes through the microbial decomposition dusty gas in soil. Therefore keep potting soil soil luck to breathe freely well, the potted plant decomposition indoor polluted gas that absorbs is played a key effect, but current flowerpot all makes it difficult for soil and well breathes freely water-tight again.
Accompanying drawing explanation
In order to be illustrated more clearly that technical scheme, the accompanying drawing used required in embodiment will be briefly described below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the premise not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.
Fig. 1 is decomposition texture and the first visual angle schematic diagram of the sidewall permeable flower pot that first embodiment of the invention provides;
Fig. 2 is the structural representation at the second visual angle of the sidewall permeable flower pot shown in Fig. 1;
Fig. 3 is the package assembly schematic diagram of the sidewall permeable flower pot shown in Fig. 1;
Fig. 4 is the schematic cross-section of the sidewall permeable flower pot shown in Fig. 3.
Fig. 5 is the schematic diagram arranging soil and operation principle thereof in the sidewall permeable flower pot shown in Fig. 3;
Fig. 6 is the structural representation changing embodiment of the sidewall permeable flower pot shown in Fig. 1;
Fig. 7 is the decomposition texture schematic diagram of the sidewall permeable flower pot that second embodiment of the invention provides;
Fig. 8 is the package assembly schematic diagram of the sidewall permeable flower pot shown in Fig. 7;
Fig. 9 is the structural representation of the water dish of the sidewall permeable flower pot shown in Fig. 7.
Detailed description of the invention
Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described.
Referring to Fig. 1 to Fig. 4, first embodiment of the invention provides a kind of sidewall permeable flower pot 100, and it includes 10, floral disc main body 30 of a water dish.
Described water dish 10 is disc, and it includes a storage tank 10A for hydrops. In the present embodiment, described water dish 10 also includes two, the left and right handle 10B extended out by lateral edges, moves and be placed on different positions to facilitate staff to hold handle 10B by flowerpot 100, as, on windowsill, balcony is first-class. Described handle 10B also sets up rough surface, anti-skidding to be used as. Described water dish 10 adopts transparent material to make in the present embodiment, such as glass etc., to facilitate user to watch its interior hydrops, to judge whether to the operation that adds water, thus preventing plant from drying up. Changing in embodiment at other, described water dish 10 can adopt other material, such as transparent plastic, such as polymethyl methacrylate (acrylic) etc. are made, and can also be other shape, such as the hollow circuit cylinder bodily form, truncated cone-shaped etc., it is not limited to specific embodiment.
Further referring to Fig. 4, described floral disc main body 30 is used for receiving soil, and in the present embodiment, the external diameter of described floral disc main body 30 is tapered into the direction away from water dish 10 by being close to water dish 10. Specifically, described floral disc main body 30 includes multiple external diameter by the little hollow subelement 32 become larger, and described floral disc main body 30 is laminated by these hollow subelements 32 multiple. Each hollow subelement 32 is the hollow circuit cylinder bodily form, a top edge 320 that each hollow subelement 32 includes being positioned at its two ends and a lower limb 322, described top edge 320 is near the top of described hollow subelement 32, described lower limb 322 is near the bottom of described hollow subelement 32, the arranged outside of the inner side at edge 320 and lower limb 322 attachment structure thereon, is positioned at that the top edge 320 with the hollow subelement 32 being positioned at next layer of the lower limb 322 of the hollow subelement 32 of last layer is one-body molded to be connected.
As shown in Figure 4, adjacent hollow subelement 32 is positioned at the lower limb 322 of hollow subelement 32 on upper strata lower than the top edge 320 of the hollow subelement 32 being positioned at lower floor, and the centrage M of the more contiguous described floral disc main body 30 of top edge 320 of lower limb 322 this lower floor's hollow subelement 32 relative of this upper strata hollow subelement 32, so that form gap 32A between the two. Thus make when watering by the soil in the hollow subelement 32 of the superiors, hydrops can flow to next hollow subelement 32 (and interior soil) from the hollow subelement 32 (and interior soil) of last layer, without flowing out from the 32A of gap, eventually flow in described water dish 10 (with reference to Fig. 4 and Fig. 5).The gap of each layer adds the marginal portion of each layer of soil and contacting of air, namely adds the breathability of each layer of soil.
It should be pointed out that can suitable be advisable between the lower limb 322 of hollow subelement of basecoat and the inward flange size of water dish 10 are with both, buckle can also be passed through between both or screw structural realizes assembling and disassembling.
In the present embodiment, as shown in Figure 1, at orlop, namely the lower limb 322 of the hollow subelement 32 of closest described water dish 10 arranges four projections 325, accordingly, the inward flange of water dish 10 arranges matched four gathering sill 12 and an annular inner groovy 14, wherein four gathering sills 12 connect with described annular inner groovy 14, during installation, this water dish 10 and this floral disc main body 30 is rotated against after four projections 325 are imported described gathering sill 12, described four projections 325 are made to slip in described annular inner groovy 14, realize the connection of water dish 10 and floral disc main body 30.
Additionally, such as in the floral disc main body 30 that the multiple hollow subelements 32 of employing shown by the present embodiment are laminated, connected mode between adjacent hollow subelement 32 is also not limited to integrative-structure, it can also be spliced with buckle or fastened by screw mode etc., it is not limited to specific embodiment.
As shown in Figure 6, the one of which embodiment of described floral disc main body 30 is made as the overall structure of a hollow cylindrical, is be laminated by hollow subelement 32 equally, but the size of each hollow subelement 32 is identical.
In the present embodiment, described floral disc main body 30 and water dish 10 are made of plastics, and it can also adopt other material certainly, such as timber, pottery etc., are not limited to specific embodiment.
As shown in Figure 5, during use, on the one hand, overflow when waterproof and breathable floral disc main body 30 can be breathed freely but be prevented from watering, when potted plant is watered, water can flow to next hollow subelement 32 (and interior soil) from the hollow subelement 32 (and interior soil) of last layer, without flowing out from the 32A of gap, eventually flow in described water dish 10 (with reference to Fig. 4 and Fig. 5), and the gap between each hollow subelement adds the marginal portion of each layer of soil and contacting of air, namely add the breathability of each layer of soil, it is beneficial to soil and microorganism adsorption decomposes the dusty gas in air, thus promoting the potted plant efficiency absorbing and decomposing dusty gas in maximum efficiency.
It addition, in the present embodiment, described water dish 10 is made with transparent material, such as glass etc., to facilitate user to watch its interior hydrops, such that it is able to judge whether to the operation that adds water, thus preventing plant withered further and dead.
Referring to Fig. 7 and Fig. 8, second embodiment of the invention provides a kind of sidewall permeable flower pot 200, and it includes 210, floral disc main body 230 of a water dish.
The structure of the sidewall permeable flower pot 100 that described sidewall permeable flower pot 200 provides with first embodiment is similar, it is distinctive in that: the outline of each hollow subelement 232 makes reverse frustoconic, and by it being laminated mutually described floral disc main body 230, between adjacent hollow subelement 232, realized the integrated connection of structure by reinforcement 270. Floral disc main body 230 is formed by buckle or fastened by screw by multiple hollow subelements 233, has the outline of cylinder on the whole.
Additionally, as shown in Figure 7, at orlop, namely the lower limb of the hollow subelement 232 of closest water dish 210 arranges four projections 2325, accordingly, the inward flange of water dish 10 arranges four matched gathering sills 212 and four indents 214 (referring to Fig. 9), wherein four gathering sills 212 connect with described inner groovy 214, during installation, this water dish 210 and this floral disc main body 230 is rotated against after four projections 2325 are imported described gathering sill 212, described four projections 2325 are made to slip in described inner groovy 214, realize the connection of water dish 210 and floral disc main body 230, as shown in Figure 8.
In the present embodiment, overflow when waterproof and breathable floral disc main body 230 can be breathed freely but be prevented from watering, Shi Shuike that potted plant is watered flow to next hollow subelement 232 (and interior soil) from the hollow subelement 232 (and interior soil) of last layer, will not flow out from the gap of two-layer, finally flow in described water dish 210, and the gap between each hollow subelement adds the marginal portion of each layer of soil and contacting of air, namely add the breathability of each layer of soil, it is beneficial to soil and microorganism adsorption decomposes the dusty gas in air, thus promoting the potted plant efficiency absorbing and decomposing dusty gas in maximum efficiency.
The above is the preferred embodiment of the present invention; it should be pointed out that, for those skilled in the art, under the premise without departing from the principles of the invention; can also making some improvements and modifications, these improvements and modifications are also considered as protection scope of the present invention.