CN100998307A

CN100998307A - Multi-functional soilless flowerpot with large liquid storage reservoir

Info

Publication number: CN100998307A
Application number: CNA2006102000177A
Authority: CN
Inventors: 佟振东
Original assignee: Individual
Current assignee: Individual
Priority date: 2006-01-11
Filing date: 2006-01-11
Publication date: 2007-07-18

Abstract

A multifunctional soilless flowerpot with a big nutritive liquid storing chamber is composed of main pot divided into root growing region, air chamber and nutritive liquid storing chamber to provide nutritive liquid for 3 months, liquid filling tube, gauze net, air permeable grate, bulkheads, liquid sucking rod, liquid filling hole with plug, matrix and nutritive liquid.

Description

Multi-functional soilless flowerpot with large liquid storage reservoir

Affiliated technical field

The present invention relates to a kind of cultivation apparatus without soil that is used for cultivated plant, especially can be at the cultivation apparatus without soil of outdoor leakage sky cultivated plant.

Background technology

At present, the soilless culture mode that the nothing soil flowerpot that uses on the market adopts all only is a kind of of soilless culture mode: water planting, the pattern of basin roughly has three kinds: the one, and the matrix of in the vessel of a no bottom outlet, packing into, pour into nutrient solution, matrix mostly is particles such as haydite, plastic grain, quartzy mud, be mainly used in fixedly plant root, the whole or big portion of root system of plant is immersed in the nutrient solution; The 2nd, in vessel that promptly do not have side opening and do not have again a bottom outlet, add fixedly plant of fixture, add nutrient solution, root system of plant also is that whole or big portion is immersed in the nutrient solution; The 3rd, establish basin in outside in the basin, nutrient solution is basin outside, and interior basin is established the bottom outlet matrix of packing into, and nutrient solution enters matrix from bottom outlet, and matrix is used for fixing plant root, and root system of plant still is that whole or big portion is immersed in the nutrient solution.These do not have the shortcoming that native flowerpot has following four aspects: 1 all can only cultivate the water-fast plant of water plants and seldom a part of kind, and most drought-enduring plants do not survive in these basins; 2 suitable for reading opening wide, not rainproof waterproof, rainwater enters in the basin can water down nutrient solution concentration, influences plant growing, thereby can only can not be used for the outdoor planting plant in indoor use.3 matrix are lighter, and slightly bigger plant is difficult to fixing.4 on-aquatic plants need often to change nutrient solution, do not change nutrient solution in 20 days, and plant will rot root to some extent.

Summary of the invention

What 1 the present invention adopted is nutrient solution-substrate culture, and nutrient solution is selected general soilless culture nutrient fluid for use, and matrix is selected sand, haydite, perlite, rock wool and their mixture for use, can be used to cultivate the plant of almost all kinds;

2 have designed anti-rainwater enters structure in the nutrient solution, makes this not have native flowerpot indoor and outdoor and all can use;

3 have solved the fixation problem of big plant substantially;

4 are provided with spacer assembly, stop root system to enter nutrient solution, no longer need to change nutrient solution, have thoroughly stopped to soak the bad root phenomenon that root system causes by nutrient solution;

5 basin bottoms are provided with fluid reservoir, can store the nutrient solution that used in three months for general flowers;

Be provided with high-hygroscopicity imbibition rod in 6 fluid reservoirs, can automatically nutrient solution be risen to top, continual and steady provide nutrient and water for root system of plant;

The middle part of 7 basins is provided with air chamber, and the air chamber top is provided with the large tracts of land air-vent, guarantees root system of plant oxygen supply abundance;

8 basin outer lower portion are provided with level window, can observe the liquid level situation of change at any time,

The scheme that the present invention solves its technical problem is

With the internal separation of flowerpot is three zones, upper, middle and lower, and top is that root growth district, middle part are that air chamber, bottom are fluid reservoir (seeing figure-1).

The root growth district: this district's filling matrix is the plant root growth zone, the fixedly root effect of having held concurrently;

Air chamber: air chamber provides fresh air for root system of plant at any time;

Fluid reservoir: can store the general flowers of confession and absorb trimestral nutrient solution.

Constituting this flowerpot has nine parts, is respectively: 1 main basin, 2 liquid-feeding tubes, 3 gauzes, 4 ventilative combs, 5 dividing plates, 6 imbibition rods, 7 liquid feeding stopples, 8 matrix, 9 nutrient solutions;

1 main basin, main basin is this flowerpot main part, is used to accept miscellaneous part and splendid attire nutrient solution, matrix, plant root, the basin outside is provided with level window, outage, the bottom is provided with osculum (air admission hole), is provided with drainpipe (air inlet pipe) in the basin, and it is stupefied that the middle part is provided with projection in the basin; (seeing Fig. 1-1)

2 liquid-feeding tubes are used to add nutrient solution, are made up of liquid feeding lid, conduit, rubber cushion, four parts of clamp nut; (seeing Fig. 1-2)

3 gauzes are used to stop the matrix in root growth district to enter air chamber, which is provided with imbibition rod hole, fluid-adding tube hole; (seeing Fig. 1-3)

4 ventilative combs are used to constitute air chamber, which is provided with air-vent, buttress, imbibition rod hole, fluid-adding tube hole (seeing Fig. 1-4)

5 dividing plates are used to separate fluid reservoir and air chamber, are made up of mainboard, waterproof apron two parts, and mainboard is provided with osculum (air admission hole), fluid-adding tube hole, imbibition rod hole; (seeing Fig. 1-5)

6 imbibition rods are used for the nutrient solution in the fluid reservoir is risen to the root growth district, are made up of barred body, waterproof pad two parts; (seeing Fig. 1-6)

7 discharge opeing stopples are used to stop up main basin liquid filling hole; (seeing Fig. 1-7)

8 matrix are used for fixing plant root and are root system conduction conveying nutrient solution and air;

9 nutrient solutions are used to root system of plant that nutrient and water is provided.

Each parts and material connected mode are as follows:

In the fluid-adding tube hole of dividing plate, rubber cushion is last with self nut screwing clamping for 1 liquid-feeding tube; (see figure 1)

2 dividing plates lie in the internal projection of main basin stupefied on; (see figure 1)

3 ventilative combs lie on the dividing plate, and the imbibition rod hole of two parts, fluid-adding tube hole align respectively; (see figure 1)

4 imbibition rods are inserted in the imbibition rod hole; (see figure 1)

5 gauzes lie on ventilative the comb, and imbibition rod hole, fluid-adding tube hole align respectively; (see figure 1)

6 discharge opeing stopples insert in the outage of main basin; (see figure 1)

7 matrix are warped the root growth district;

8 nutrient solutions pour into fluid reservoir.

Three zones are divided as follows:

The root growth district: gauze is the root growth district with top in the main basin; (see figure 1)

Air chamber: the slit between ventilative comb and the dividing plate is an air chamber; (see figure 1)

Fluid reservoir: dividing plate is to be divided into fluid reservoir down to main basin basin bottom part.(see figure 1)

By the organic connection and trizonal the communicating with each other of each parts, material, interact, address the problem:

1 can cultivate nearly all plant, the any plant that grows in the natural soil can both well grow in this basin, this is because the cultivation method that this basin is selected for use does not destroy plant self-sow state basically, in soil, root system of plant is by the moisture around the absorbent earth soil particle, the various nutrient components that are dissolved in the water are absorbed in the body, this basin has just changed natural soil into soilless culture substrate, root system of plant is by the circumgranular nutrient solution of absorption base, moisture and various nutrient component are absorbed in the body, and the voidage of soilless culture substrate, moisture content, liquid to steam ratio all is better than natural soil far away, more helps root growth.

2 prevent that rainwater and other secondary waters from entering the interior fluid reservoir of basin and watering down nutrient solution

Waterproof is by 1. " dividing plate ", 2. " osculum " on the dividing plate, 3. " waterproof apron " on the dividing plate, and 4. " rubber cushion " on the liquid-feeding tube, 5. " waterproof pad " on the imbibition rod, six parts such as " drainpipe " on the 6. main basin, " osculum " are finished.The rainwater or other secondary waters that get off from plant stem-leaf and basin outside enter matrix, flow into the dividing plate upper surface by the air-vent on ventilative the comb again, " waterproof apron ", " rubber cushion " on the liquid-feeding tube on the dividing plate, the prevention of " waterproof pad " on the imbibition rod are arranged, make it flow to " osculum " on the dividing plate, " drainpipe " " osculum " on main basin that enters on the main basin discharged outside basin.

3 have solved the fixation problem of big plant substantially; This work is finished by " cultivation matrix ", big plant makes cultivation matrix with 1: 1 gravel of volume ratio+middle sand, sand, 1: 1 haydite of volume ratio+middle sand, 1: 1 slag of volume ratio+middle sand, rock wool make cultivation matrix in using successively, can solve the fixation problem of all plants substantially.

4 have thoroughly solved the bad root phenomenon that is caused by nutrient solution immersion root system, this work is finished by gauze and dividing plate, and the gauze mesh of design is the 60-80 order, can stop root system to enter nutrient solution, dividing plate also can end root system and enter nutrient solution, no longer takes place to soak the bad root phenomenon that root system causes by nutrient solution;

The fertilising of need not watering of 5 plant long periods, the basin bottom is provided with fluid reservoir, and fluid reservoir stores the nutrient solution that used in three months for general flowers, adds the general sustainable use of one time of nutrition liquid more than three months, the sustainable use of the small-sized plant of part half a year;

6 continual and steady provide nutrient solution for root system of plant, the imbibition rod can AUTOMATIC STATIC promote nutrient solution to the root growth district, the imbibition rod is made by the high-hygroscopicity material, utilize the high-hygroscopicity of material itself, nutrient solution in the fluid reservoir is sucked barred body, be transmitted to again in the matrix in root growth district, sustainablely stable provide nutrient solution for root system of plant;

7 guarantee root system of plant oxygen supply abundance, finish " air admission hole " that 1. main basin exterior bottom is arranged of this work, 2. " air inlet pipe " that main basin inner bottom part draws, 3. " air chamber ", " ventilation hole " of the outer middle side part of 4. main basin, 5. " air-vent " on ventilative the comb, " air admission hole " in the 6. main basin bottom part outside, 7. seven parts such as " soilless substrates " in root growth district.Air enters air chamber by the external admission hole by air inlet pipe, fresh air enters in the matrix by air-vents a large amount of on the interlayer board, utilize intrinsic macroporosity of soilless substrate and good ground WGR, air is incorporated the root growth district, for plant root growth provides sufficient oxygen; Utilize the gas permeability of soilless substrate again, make to contain the low waste gas of oxygen and discharge by top; Root system oxygen supply abundance.

8 can observe fluid reservoir liquid level situation of change at any time, remind and add nutrient solution, this work is finished by the level window on the main basin, and level window is made by transparent material, see through the nutrient solution that level window can see that fluid reservoir is interior, can observe fluid reservoir liquid level situation of change at any time.

Beneficial effect of the present invention:

1 can be used for cultivating the almost plant of any kind of, and solved does not have the shortcoming that native flowerpot can only be cultivated seldom a part of kind plant in the past;

2 can be used for outdoor open-air cultivated plant; Broken do not have native flowerpot can only be in the history of indoor growing plant;

3 have thoroughly stopped bad root phenomenon, and plant growing is vigorous;

4 no longer need the numerous and diverse knowledge of growing flower of learning and mastering; All kinds of flowers are the good self-sow of energy all, and the people that can grow flower can not support spending to relaxation and happiness yet;

5 no longer need flowers are managed and nurse, and after flowers were planted this basin, what need do only was to observe liquid level gauge, adds nutrient solution when nutrient solution uses up;

6 no longer need often to change nutrient solution as other does not have native flowerpot, general flowers add the sustainable use of one time of nutrition liquid 3-4 month, and the flowers liquid feeding time interval that the part water consumption is few can reach 6 months;

7 devices are used for greenhouse by solar heat need not the nutrient solution circulatory system, water-saving, and the saving of labor can obviously reduce the cultivation cost; Each culturing device is independent, has avoided nutrient solution connection sheet circulation in the past, and the strain phenomenon that full canopy is injured of falling ill has reduced the probability that crop pest takes place;

8 device cultivated plants do not need the energy, can become the outstanding cultivation apparatus without soil of the greenhouse by solar heat of unregulated power supply;

9 devices can be used for square, block, the road in all cities, the greening of roof, and body is light, water saving, cleaning, health, saving of labor, save trouble, and do not have dust pollution, muddy water pollution;

10 with the setting of joining together of many device, can be used as the big-and-middle-sized water saving project in arid area short of rain, and water-saving result is extremely remarkable;

Description of drawings

Fig. 1 is the detail drawing of first embodiment " outdoor nothing soil flowerpot 1 " of this present invention;

Fig. 1-the 1st, the detail drawing of first parts of first embodiment ' main basin ' among the figure-1;

Fig. 1-2 is the detail drawing of second parts ' liquid-feeding tube ' of first embodiment among Fig. 1;

Fig. 1-the 3rd, the detail drawing of the 3rd of first embodiment the parts ' husky net ' among Fig. 1;

Fig. 1-the 4th, the detail drawing of the 4th of first embodiment the parts ' the ventilative comb ' among Fig. 1;

Fig. 1-the 5th, the detail drawing of the 5th of first embodiment the parts ' dividing plate ' among Fig. 1;

Fig. 1-the 6th, the detail drawing of the 6th of first embodiment the parts ' liquid feeding rod ' among Fig. 1;

Fig. 1-the 7th, the detail drawing of the 7th of first embodiment the parts ' discharge opeing stopple ' among Fig. 1;

Fig. 2 is the detail drawing of second embodiment of the present invention " outdoor nothing soil flowerpot 2 ";

Fig. 3 is the detail drawing of the 3rd embodiment of the present invention " outdoor nothing soil flowerpot 3 ";

Fig. 4 is the detail drawing of the 4th embodiment of the present invention " outdoor nothing soil flowerpot 4 ";

Fig. 5 is the detail drawing of the 5th embodiment of the present invention " outdoor nothing soil flowerpot 5 ";

Fig. 6 is the detail drawing of the 6th embodiment of the present invention " outdoor nothing soil flowerpot 6 ";

Fig. 7 is the detail drawing of the 7th embodiment of the present invention " indoor nothing soil flowerpot 1 ";

Fig. 8 is the detail drawing of the 8th embodiment of the present invention " indoor nothing soil flowerpot 2 ";

Fig. 9 is the detail drawing of the 9th embodiment of the present invention " indoor nothing soil flowerpot 3 ";

Figure 10 is the detail drawing of the of the present invention ten embodiment " indoor nothing soil flowerpot 4 ";

Embodiment

Among 1 the embodiment 1 (outdoor nothing soil flowerpot 1) at Fig. 1

1) earlier liquid-feeding tube (2), dividing plate (5), imbibition rod (6) are assembled

Assembling liquid-feeding tube (2) earlier covers liquid feeding suitable for reading at conduit, and rubber cushion is enclosed within protruding stupefied time of conduit bottom, and clamp nut is screwed in the end opening of conduit; (seeing Fig. 1-2)

Assembling dividing plate (5) is enclosed within the waterproof apron of dividing plate (5) on the mainboard edge; (seeing Fig. 1-5)

Assembling imbibition rod (6), with the waterproof pad of imbibition rod (6) be enclosed within barred body on emit the lower edge; (seeing Fig. 1-6)

2) connect dividing plate (5) and liquid-feeding tube (2)

Back out the clamp nut on the liquid-feeding tube (2), the end opening of liquid-feeding tube (2) is inserted in the fluid-adding tube hole of dividing plate (5) upper surface the clamp nut of screwing on;

3) dividing plate (5) that will connect liquid-feeding tube (2) be placed on internal projection in the main basin (1) stupefied on, liquid-feeding tube (2) is upwards;

The following space that forms of main basin internal partition (5) is a fluid reservoir;

4) comb (4) of will breathing freely is placed on the dividing plate (5), aligns with fluid-adding tube hole, imbibition rod hole on the dividing plate (5) in the fluid-adding tube hole on ventilative comb (4), imbibition rod hole, and buttress is following;

The space that forms between ventilative comb (4) and the dividing plate (5) in the main basin is an air chamber;

5) gauze (3) being placed on ventilative comb (4), aligns with fluid-adding tube hole, imbibition rod hole on ventilative comb (4) in the fluid-adding tube hole of gauze (3), imbibition rod hole;

The above space that forms of gauze (3) is the root growth district in the main basin;

6) with in the imbibition rod hole in imbibition rod (6) insertion ventilative comb (4);

7) liquid feeding stopple (7) is filled in the outage of main basin;

8) use soilless substrate that plant is planted into the root growth district;

9) liquid feeding that takes off on the liquid-feeding tube (2) covers, and from liquid-feeding tube (2) adding nutrient solution suitable for reading, covers the liquid feeding lid;

Embodiment 1 implements to finish.

The embodiment 2 of 2 Fig. 2 (outdoor nothing soil flowerpot 2) is the expansion of the embodiment 1 of Fig. 1, and it is divided into two parts up and down with the main basin (1) among the embodiment 1, main basin (on) and main basin (descending), establish dividing plate (5) no longer in addition, and with main basin (on) basin at the bottom of replacement.Imbibition rod (6) can be established one, also can establish a plurality ofly, and drainpipe (air inlet pipe) also can be established one or more.Main basin (on) seat is on main basin (descending), the implementation method of other parts is identical with embodiment 1.This embodiment is fit to big flowerpot, can cultivate many plants in the basin.

The embodiment 3 of 3 Fig. 3 (outdoor nothing soil flowerpot 3) has removed gauze (3) and ventilative (4) two parts of combing on the basis of the embodiment 1 of Fig. 1, do not establish air chamber, and set up many side air-vents at the sidewall in main basin (1) root growth district, to replace the effect of ventilative comb (4), the implementation method of other parts is identical with embodiment 1.

The embodiment 4 of 4 Fig. 4 (outdoor nothing soil flowerpot 4) is the expansion of the embodiment 3 of Fig. 3, and it is divided into two parts up and down with the main basin (1) among the embodiment 3, main basin (on) and main basin (descending), establish dividing plate (5) no longer in addition, and with main basin (on) basin at the bottom of replacement.Imbibition rod (6) can be established one, also can establish a plurality ofly, and drainpipe (air inlet pipe) also can be established one or more.Main basin (on) seat is on main basin (descending), the implementation method of other parts is identical with embodiment 3.This embodiment is fit to big flowerpot, can cultivate many plants in the basin.

The embodiment 5 of 5 Fig. 5 (outdoor nothing soil flowerpot 5) has removed the drainpipe (air inlet pipe) on the main basin (1) and the osculum (air admission hole) of bottom again on the basis of the embodiment 3 of Fig. 3, rainwater and other secondary waters are discharged by next the row's air-vent on main basin (1) sidewall, and the implementation method of other parts is identical with embodiment 3.

The embodiment 6 of 6 Fig. 6 (outdoor nothing soil flowerpot 6) is the expansion of the embodiment 5 of Fig. 5, and it is divided into two parts up and down with the main basin (1) among the embodiment 5, main basin (on) and main basin (descending), establish dividing plate (5) no longer in addition, and with main basin (on) basin at the bottom of replacement.Imbibition rod (6) can be established one, also can establish a plurality ofly, and drainpipe (air inlet pipe) also can be established one or more.Main basin (on) seat is on main basin (descending), the implementation method of other parts is identical with embodiment 5.This embodiment is fit to big flowerpot, can cultivate many plants in the basin.

The embodiment 7 of 7 Fig. 7 (indoor nothing soil flowerpot 1) has removed liquid-feeding tube (2) and (5) two parts of dividing plate on the basis of the embodiment 1 of Fig. 1, the comb (4) of will breathing freely be placed on internal projection in the main basin (1) stupefied on, four interior air admission holes are established in air inlet pipe upper end in main basin (1), ventilative comb (4) lower surface is an air chamber to the space of interior air admission hole lower limb in the basin, and the implementation method of other parts is identical with embodiment 1.This embodiment does not have rainproof facility, is suitable for the indoor growing plant.

The embodiment 8 of 8 Fig. 8 (indoor nothing soil flowerpot 2) is the expansion of the embodiment 7 of Fig. 7, and it is divided into two parts up and down with the main basin (1) among the embodiment 7, main basin (on) and main basin (descend), establishing ventilative comb (4) no longer in addition, and with main basin (on) basin at the bottom of replacement.Imbibition rod (6) can be established one, also can establish a plurality ofly, and drainpipe (air inlet pipe) also can be established one or more.Main basin (on) seat is on main basin (descending), the implementation method of other parts is identical with embodiment 7.This embodiment is fit to big flowerpot, can cultivate many plants in the basin.

The embodiment 9 of 9 Fig. 9 (indoor nothing soil flowerpot 3) has removed the air inlet pipe on the main basin (1) and the air admission hole of bottom on the basis of the embodiment 7 of Fig. 7, stupefied place establishes a plurality of little side air admission holes in main basin sidewall internal projection, replace the air inlet pipe air inlet, ventilative comb (4) lower surface is an air chamber to the space of side air admission hole lower limb in the basin, and the implementation method of other parts is identical with embodiment 7

The embodiment 10 of 10 Figure 10 (indoor nothing soil flowerpot 4) is the expansion of the embodiment 9 of Fig. 9, and it is divided into two parts up and down with the main basin (1) among the embodiment 9, main basin (on) and main basin (descend), establishing ventilative comb (4) no longer in addition, and with main basin (on) basin at the bottom of replacement.Imbibition rod (6) can be established one, also can establish a plurality ofly, and drainpipe (air inlet pipe) also can be established one or more.Main basin (on) seat is on main basin (descending), the implementation method of other parts is identical with embodiment 9.This embodiment is fit to big flowerpot, can cultivate many plants in the basin.

Claims

One kind can indoor also can be at the multi-functional no native flowerpot of outdoor open-air use, form by 7 parts such as main basin, liquid-feeding tube, gauze, ventilative comb, dividing plate, imbibition rod, liquid feeding stopples, it is characterized in that the device internal separation is three zones, is respectively root growth district, air chamber, fluid reservoir.

The main basin outside is provided with level window, outage, and the bottom is provided with osculum (air admission hole), is provided with drainpipe (air inlet pipe) in the basin, and it is stupefied that the middle part is provided with projection in the basin; Liquid-feeding tube is made up of liquid feeding lid, conduit, rubber cushion, four parts of clamp nut; Gauze is provided with imbibition rod hole, fluid-adding tube hole; The ventilative comb is provided with air-vent, buttress, imbibition rod hole, fluid-adding tube hole; Dividing plate is made up of mainboard, waterproof apron two parts, and mainboard is provided with osculum (air admission hole), fluid-adding tube hole, imbibition rod hole; The imbibition rod is made up of barred body, waterproof pad two parts.

Liquid-feeding tube is connected in the fluid-adding tube hole on the dividing plate with self clamp nut, and the waterproof apron of dividing plate is enclosed within on the mainboard edge; The dividing plate that has connected liquid-feeding tube be placed on internal projection in the main basin stupefied on, liquid-feeding tube is upwards; The following space that forms of main basin internal partition is a fluid reservoir; Ventilative comb is placed on the dividing plate, aligns with fluid-adding tube hole, imbibition rod hole on the dividing plate in the fluid-adding tube hole on ventilative comb the, imbibition rod hole, and buttress is following; The space that forms between ventilative comb and the dividing plate in the main basin is an air chamber; Gauze is placed on ventilative the comb, aligns with fluid-adding tube hole, imbibition rod hole on ventilative the comb in the fluid-adding tube hole of gauze, imbibition rod hole; The above space that forms of gauze is the root growth district in the main basin; The imbibition rod inserts in the imbibition rod hole of breathing freely on combing; The liquid feeding stopple is filled in the outage of main basin.(embodiment 1)
2. multi-functional no native flowerpot according to claim 1 is characterized in that main basin is divided into up and down two parts, main basin (on) and main basin (descending), establish dividing plate no longer in addition, and with main basin (on) basin at the bottom of replacement.The imbibition rod can be established one, also can establish a plurality ofly, and drainpipe (air inlet pipe) also can be established one or more.Main basin (on) be connected main basin (descending) above, other parts are identical with claim 1.(embodiment 2)
3. multi-functional no native flowerpot according to claim 1, it is characterized in that having removed gauze and ventilative two parts of combing, do not establish air chamber, and set up many side air-vents at the sidewall in main basin root growth district, to replace ventilative effect of combing, other parts are identical with claim 1.(embodiment 3)
4. multi-functional no native flowerpot according to claim 3 is characterized in that main basin is divided into up and down two parts, main basin (on) and main basin (descending), establish dividing plate no longer in addition, and with main basin (on) basin at the bottom of replacement.The imbibition rod can be established one, also can establish a plurality ofly, and drainpipe (air inlet pipe) also can be established one or more.Main basin (on) be connected main basin (descending) above, other parts are identical with claim 3.(embodiment 4)
5. multi-functional no native flowerpot according to claim 3, it is characterized in that and removed the drainpipe (air inlet pipe) on the main basin and the osculum (air admission hole) of bottom, rainwater and other secondary waters are discharged by next the row's air-vent on the main basin sidewall, and other parts are identical with claim 3.(embodiment 5)
6. multi-functional no native flowerpot according to claim 5 is characterized in that main basin is divided into up and down two parts, main basin (on) and main basin (descending), establish dividing plate no longer in addition, and with main basin (on) basin at the bottom of replacement.The imbibition rod can be established one, also can establish a plurality ofly, and drainpipe (air inlet pipe) also can be established one or more.Main basin (on) be connected main basin (descending) above, other parts are identical with claim 5.(embodiment 6)
7. multi-functional no native flowerpot according to claim 1, it is characterized in that having removed two parts of liquid-feeding tube and dividing plate, with ventilative comb be placed on internal projection in the main basin stupefied on, four interior air admission holes are established in air inlet pipe upper end in main basin, ventilative comb lower surface is an air chamber to the space of interior air admission hole lower limb in the basin, and other parts are identical with claim 1.(embodiment 7)
8. multi-functional no native flowerpot according to claim 7 is characterized in that main basin is divided into up and down two parts, main basin (on) and main basin (descend), establishing ventilative comb no longer in addition, and with main basin (on) basin at the bottom of replacement.The imbibition rod can be established one, also can establish a plurality ofly, and drainpipe (air inlet pipe) also can be established one or more.Main basin (on) be connected main basin (descending) above, other parts are identical with claim 7.(embodiment 8)
9. multi-functional no native flowerpot according to claim 7, the air inlet pipe on the main basin and the air admission hole of bottom have been it is characterized in that removing, stupefied place establishes a plurality of little side air admission holes in main basin sidewall internal projection, replace the air inlet pipe air inlet, ventilative comb lower surface is an air chamber to the space of side air admission hole lower limb in the basin, and other parts are identical with claim 7.(embodiment 9)
10. multi-functional no native flowerpot according to claim 9 is characterized in that main basin is divided into up and down two parts, main basin (on) and main basin (descend), establishing ventilative comb no longer in addition, and with main basin (on) basin at the bottom of replacement.The imbibition rod can be established one, also can establish a plurality ofly, and drainpipe (air inlet pipe) also can be established one or more.Main basin (on) be connected main basin (descending) above, other parts are identical with claim 9.(embodiment 10)