CN106134967A - Beat oxygen module and there is the ecologic planting case of this dozen of oxygen modules - Google Patents

Abstract

The present invention provides a kind of and beats oxygen module, for providing oxygen to the root system of plant immersed in nutritional solution, described oxygen module of beating includes air pump, mixing wastewater with air structure and connect described air pump and the gas distribution channel of air water mixed structure, described mixing wastewater with air structure includes the storage area storing nutritional solution, it is positioned at described storage area side and the gas storage district for store oxygen, and the barrier muscle separated is distinguished in described storage area and gas storage, the present invention also provides for a kind of ecologic planting case with this dozen of oxygen modules, when described beat oxygen module work time, described mixing wastewater with air structure can be delivered to after being sufficiently mixed by the oxygen that air pump is sent into immerse the root system of plant in nutritional solution, to realize the purpose to root system of plant supplemental oxygen.

Description

Beat oxygen module and there is the ecologic planting case of this dozen of oxygen modules

Technical field

The present invention relates to a kind of apparatus of oxygen supply, particularly relate to a kind of to providing beating oxygen module and there is the ecologic planting case of this dozen of oxygen modules of oxygen in ecologic planting case.

Background technology

Along with the expansion of urbanization degree, the area that can till the land constantly is reducing.Live in the masses in cities and towns to have few opportunities contact Arcadian life, long-term conventional, easily causing the shortage of the growth course to various vegetables to recognize intuitively, yet with there being soil cultivation easily pollute surrounding and cause the phenomenons such as insecticide, these phenomenons directly reduce to plant and experience.

For the problems referred to above, market occurring in that a kind of soilless culture planting box, but owing to the oxygen in casing is not enough, adds that the root of plant stretches in nutritional solution, plant to be cultivated can be because of dead for hypoxgia.Existing aeration device is mostly and is directly passed through oxygen in nutritional solution, but due to oxygen and nutritional solution undercompounding, is easily caused plant root to be cultivated and occurs to rot and death or grow slower.

In view of this, it is necessary to beating oxygen module and having the ecologic planting case of this dozen of oxygen modules to solve the problems referred to above of a kind of improvement is provided.

Summary of the invention

It is an object of the invention to provide a kind of oxygen and well-mixed ecologic planting case beaten oxygen module and there is this dozen of oxygen modules of nutritional solution of making.

The present invention provides a kind of and beats oxygen module, for providing oxygen to the root system of plant immersed in nutritional solution, described oxygen module of beating includes air pump, mixing wastewater with air structure and connects described air pump and the gas distribution channel of air water mixed structure, described mixing wastewater with air structure includes storing the storage area of nutritional solution, is positioned at described storage area side and for the gas storage district of store oxygen and described storage area and gas storage are distinguished the barrier muscle separated, after filling nutritional solution to described storage area, in described storage area, the liquid level of nutritional solution is not higher than the top of described barrier muscle.

As a further improvement on the present invention, described barrier muscle extends close to the position of described mixing wastewater with air structural top from the bottom up of described mixing wastewater with air structure.

As a further improvement on the present invention, described playing the air pump cover that oxygen module also includes being located at outside described air pump, described gas distribution channel includes that the gas outlet being located on described air pump cover, one end are connected with described gas outlet the appendix that the other end is connected with described mixing wastewater with air inside configuration and the sealing device being tightly connected described gas outlet and appendix.

For achieving the above object, the present invention also provides for a kind of ecologic planting case, for planting and cultivating plant to be cultivated, described ecologic planting case has casing, it is housed in described casing the breeding apparatus for cultivating plant and beats oxygen module for breeding apparatus implants root system oxygen, described oxygen module of beating includes air pump, mixing wastewater with air structure and connect described air pump and the gas distribution channel of air water mixed structure, described breeding apparatus includes the liquid storage dish holding nutritional solution, described mixing wastewater with air structure is arranged on described liquid storage dish and connects described liquid storage dish and air pump, to introduce oxygen into described liquid storage dish and to be sufficiently mixed with nutritional solution.

As a further improvement on the present invention, described mixing wastewater with air structure includes the storage area for storing nutritional solution, at described storage area side and for the gas storage district of store oxygen and the barrier muscle between described storage area and gas storage district, described barrier muscle extends close to the position of described mixing wastewater with air structural top from the bottom up of described mixing wastewater with air structure.

As a further improvement on the present invention, after being filled nutritional solution to described storage area, in described storage area, the liquid level of nutritional solution is not higher than the top of described barrier muscle.

As a further improvement on the present invention, described playing the air pump cover that oxygen module also includes being located at outside described air pump, described gas distribution channel includes that the gas outlet being located on described air pump cover, one end are connected with described gas outlet the appendix that the other end is connected with described mixing wastewater with air inside configuration and the sealing device being tightly connected described gas outlet and appendix.

As a further improvement on the present invention, described casing includes the base housing described liquid storage dish, the both sides of described base are provided with the slideway for the described free pull of liquid storage dish, and when described liquid storage dish is housed in described base completely, described gas distribution channel connects described mixing wastewater with air structure and air pump；When described liquid storage dish is drawn out, described air pump disconnects with described mixing wastewater with air structure.

As a further improvement on the present invention, described liquid storage dish includes a diapire, from described upwardly extending four sidewalls of diapire four side edge, one of them sidewall caves in useful in the depressed part of accommodating described mixing wastewater with air structure.

As a further improvement on the present invention, the sidewall of described liquid storage dish is additionally provided with the water-supply-pipe connecting described storage area and described liquid storage dish, and the nutritional solution in oxygen with described storage area be sufficiently mixed after flow into described liquid storage dish from described water-supply-pipe.

The invention has the beneficial effects as follows: the present invention beats oxygen module by be provided with air pump and air water mixed structure at the box bottom of ecologic planting case, when described beat oxygen module work time, described air pump gas storage district in described mixing wastewater with air structure is passed through oxygen, now in mixing wastewater with air structure, the nutritional solution in storage area may not flow in gas storage district because of the barrier of the barrier muscle of mixing wastewater with air structure, flow into after in the oxygen being passed through enters described storage area between the top of the top of described barrier muscle and described mixing wastewater with air structure and being sufficiently mixed with the nutritional solution in storage area in described liquid storage dish, thus reach to the purpose of the root system of plant supplemental oxygen immersed in nutritional solution.

Accompanying drawing explanation

Fig. 1 is the axonometric chart of ecologic planting case of the present invention.

Fig. 2 is another view stereo figure of ecologic planting case shown in Fig. 1.

Fig. 3 is the exploded view of ecologic planting case shown in Fig. 1.

Fig. 4 is another visual angle exploded view of ecologic planting case shown in Fig. 3.

Fig. 5 is the schematic perspective view of fan in Fig. 4.

Fig. 6 is liquid storage dish and the decomposed figure beating oxygen module in Fig. 3.

Fig. 7 is breezing plate and the decomposing schematic representation of liquid storage dish in Fig. 3.

Fig. 8 is the schematic perspective view of liquid storage dish in Fig. 7.

Fig. 9 is the partial enlarged drawing in Fig. 8 at A.

Figure 10 is the covering device decomposing schematic representation with casing of ecologic planting case shown in Fig. 1.

Figure 11 is the axonometric chart after ecologic planting case shown in Fig. 1 removes antetheca.

Figure 12 is the schematic perspective view of ecologic planting case assembly of the present invention.

Figure 13 is the ecological vegetable breeding method flow chart utilizing ecologic planting case to carry out plant cultivation.

Detailed description of the invention

In order to make the object, technical solutions and advantages of the present invention clearer, describe the present invention with specific embodiment below in conjunction with the accompanying drawings.

As shown in Figure 1 to Figure 4 and shown in Figure 12, the ecologic planting case 100 of the present invention is for soilless cultivation plant.Described ecologic planting case 100 includes casing 10, the breeding apparatus 70 being housed in described casing 10, provides the lighting module 20 of light source for plant growing, keeps the ventilation module of described ecologic planting case 100 inner air flow, the in real time Level monitor 40 of monitoring nutritional solution height of water level, beating oxygen module 50 and described ecologic planting case 100 is carried out automatically controlled electrically-controlled component for nutritional solution offer oxygen.

Described casing 10 includes base 106, is positioned at the supporting walls of described base 106 both sides, the antetheca 101 connecting described two supporting walls and rear wall 102 and hides the covering device 105 at described casing 10 top, and described covering device 105, antetheca 101, rear wall 102, two supporting walls and base 106 jointly enclose and set formation cultivation space.

The bottom of described base 106 is provided with downwardly projecting protuberance 80, the top of described covering device 105 is provided with the concave part 90 of concave downward, thus when several ecologic planting casees about 100 are put, can be mutually clamped by the concave part 90 of the protuberance 80 of superposed ecologic planting case 100 with the ecologic planting case 100 being positioned at bottom so that multiple ecologic planting casees 100 are arranged above and below and stack formation ecologic planting case assembly 200.Described protuberance 80 includes that at least two is the protrusion bar 801 that diagonal is arranged, and described protrusion bar 801 is overall L-shaped.In the present embodiment, the number of described protrusion bar 801 is 4.As another embodiment, described protuberance 80 is the convex annular shaping 801 being arranged on described base 106 bottom surrounding.When multiple ecologic planting casees 100 are arranged above and below, described protrusion bar 801 is mutually clamped fixing with described concave part 90, thus reduce the parking space of multiple ecologic planting case 100, and ecologic planting case assembly 200 also is able to cultivate various plants, improves plantation experience and the visual effect of user.

Described supporting walls includes left support wall 103 and right support wall 104.The bottom of described left support wall 103 and right support wall 104 is all blocked to set and is fixed on described base 106.The side of described left support wall 103 and right support wall 104 is equipped with fixing structure for buckle 107, and described fixing structure for buckle 107 includes the cylinder being located on described antetheca 101 and rear wall 102 and is located at the buckle chamber 1072 on described left support wall 103 and right support wall 104.Described antetheca 101 and rear wall 102 can be assembled by described fixing structure for buckle 107 and be fixed on described left support wall 103 and right support wall 104.

At least one in described antetheca 101, rear wall 102, left support wall 103 and right support wall 104 be can filter blue light in nature light and HONGGUANG other coloured light are converted into that plant needs red, blue light can light-converting glass.Preferably, described antetheca 101 be transparent can light-converting glass, but be not limited only to described antetheca 101.

As shown in Figure 7 to 9, described breeding apparatus 70 is contained in described cultivation space and is placed on described base 106.Described breeding apparatus 70 includes being placed on described base 106 the liquid storage dish 701 for holding nutritional solution, above described liquid storage dish 701 for cultivating first breezing plate 702 of plant and being clipped in the second breezing plate 703 between described liquid storage dish 701 and described first breezing plate 702, described first breezing plate 702 is used for placing plant seed and plant seed being cultivated into seedling, and described second breezing plate 703 is for the growth of seedling.Described liquid storage dish 701 includes diapire 7011, from upwardly extending four sidewalls 7012 of described diapire 7011 four side edge, on one of them sidewall 7012, depression has a depressed part 7013.The both sides of described base 106 are provided with the slideway 1061 for the described free pull of liquid storage dish 701, and described liquid storage dish 701 is contained in drawer-like in described base 106, and can push along described slideway 1061 level and pull out in described base 106.

Described first breezing plate 702 is provided with two handles 7024 that can hold to be taken out by described first breezing plate 702.Described first breezing plate 702 is further opened with some through holes 7021, it is provided with to place the spongy body (not shown) of plant seed in described through hole 7021, one end of described spongy body is arranged with groove, the other end protrudes in the nutritional solution of described liquid storage dish 701, and plant seed is placed on the moisture in described groove required for absorbing through described spongy body.Also can place the growth cap 7023 for blocking described through hole 7021 on described through hole 7021, block the described through hole 7021 not placing plant seed with this, reduce the evaporation of nutritional solution.

Offer some fixing holes 7031 on described second breezing plate 703, in plant seedlings is fixed on described fixing hole 7031 and root system stretches in nutritional solution, the composition absorbing nutritional solution with this, meet growth needs.

As shown in Figure 10 Yu Figure 11, described lighting module 20 is arranged in described covering device 105, in being evenly distributed on described covering device 105 including four and can send the illuminating lamp 201 of wavelength approximation sunlight, be positioned at the light guide plate 202 uniformly dissipated with the light source by described illuminating lamp 201 below described illuminating lamp 201 and be arranged on described covering device 105 controller 203 being used for controlling described illuminating lamp 201 intensity of light source.Described electrically-controlled component is for controlling the open and close of described lighting module 20 and duration of turning on light.

As shown in Figures 3 to 5, described ventilation module is arranged on described two supporting walls, and include the air inlet 301 being opened on left support wall 103, the air outlet 302 that is opened on right support wall 104 and the fan 3022 arranged near described air outlet 302, described air inlet 301 and described air outlet 302 be the setting in space diagonal described casing 10 in.Preferably, described air inlet 301 is arranged near described base 106, and described air outlet 302 is arranged near described covering device 105.The inner side of described right support wall 104 is additionally provided with the fixture 3021 for spacing described fan 3022, and described fan 3022 is fixed on described right support wall 104 and spacing between described fixture 3021 and described right support wall 104.When described fan 3022 works, constantly the air in described ecologic planting case 100 can be discharged to outside casing 10, in described ecologic planting case 100, so form negative pressure, extraneous air just can enter in described ecologic planting case 100 by described air inlet 301, air circulation in constantly circulation keeps casing 10, to meet when the plant in ecologic planting case 100 carries out photosynthesis the needs to carbon dioxide.Described electrically-controlled component is for controlling the opening and closing of described ventilation module.

As it is shown on figure 3, described Level monitor 40 is arranged in a semi-enclosed tubular cavity 401, described tubular cavity 401 is one of them corner of close antetheca 101 side in being arranged on described liquid storage dish 701.Described Level monitor 40 is made up of the light material that density is less than nutritional solution density, and described Level monitor 40 is provided with level scale line, the most red, blue and green.User can judge the nutritional solution water level conditions in described liquid storage dish 701 by the level scale line that described Level monitor 40 spills.When nonnutritive liquid in described liquid storage dish 701, described Level monitor 40 contacts bottom described liquid storage dish 701, can only see the red level scale line of described Level monitor 40 the most from the outside, and this explanation nutritional solution has run out, and needs to add.After adding nutritional solution, described Level monitor 40 rises under the buoyancy of nutritional solution, slowly spills blue level scale line until spilling green water level graduation mark, and this represents that the nutritional solution in liquid storage dish 701 is filled it up with.In the present embodiment, described Level monitor 40 is telltale float.

As shown in Figures 6 and 7, described make the air pump 501 that oxygen module 50 includes being fixed on described base 106, it is arranged on described liquid storage dish 701 to introduce oxygen into described liquid storage dish 701 mixing wastewater with air structure 502 well-mixed with nutritional solution and connects the gas distribution channel of described air pump 501 and described mixing wastewater with air structure 502, and when described liquid storage dish 701 is housed in described base 106 completely, the described air pump of described gas distribution channel connection 501 and described mixing wastewater with air structure 502, when described liquid storage dish 701 is drawn out, described air pump 501 disconnects with described mixing wastewater with air structure 502.

Described oxygen module 50 of beating also includes being located at the air pump cover 504 outside described air pump 501, described gas distribution channel includes the gas outlet being opened on described air pump cover 504 and the appendix 5032 being arranged in described mixing wastewater with air structure, and described appendix 5032 protrudes into described gas outlet to introduce oxygen into described mixing wastewater with air structure 502.Described appendix 5032 one end is connected with described gas outlet, the other end is internal with described mixing wastewater with air structure 502 is connected.Described oxygen module 50 of beating also includes being tightly connected the sealing device 5024 of described gas outlet and described appendix 5032, described sealing device 5024 is for sealing described gas outlet and appendix 5032, to avoid described air pump 501 to leak gas when described mixing wastewater with air structure 502 is passed through oxygen.In the present embodiment, described sealing device 5024 is annular working of plastics.

Described mixing wastewater with air structure 502 is contained in described depressed part 7013, and includes the gas storage district 5021 for store oxygen, at described gas storage district 5021 side and for storing the storage area 5022 of nutritional solution, and being partly spaced described storage area 5022 and the barrier muscle 5023 in gas storage district 5021 and be arranged at the lid 5026 at described mixing wastewater with air structure 502 top between storage area 5022 and gas storage district 5021.Described appendix 5032 protrudes out and extends to be connected with described gas outlet from described gas storage district 5021.Described barrier muscle 5023 extends from the bottom up of described mixing wastewater with air structure 502 and extends close at the tip position of described mixing wastewater with air structure 502, lattice are not had to keep off at the top of described mixing wastewater with air structure 502, thus be possible not only to allow oxygen be sufficiently mixed with nutritional solution, can also prevent the nutritional solution when described air pump 501 does not works from spilling from the gas outlet of described air pump cover 504 simultaneously.When the nutritional solution in described storage area 5022 is filled it up with, the liquid level of nutritional solution is not over the height of described barrier muscle 5023, thus nutritional solution may not flow into described gas storage district 5021；When described air pump 501 works, the oxygen in described gas storage district 5021 enters into described storage area 5022 by the opening at described mixing wastewater with air structure 502 top and mixes with nutritional solution, can reach to the purpose of nutritional solution supplemental oxygen.

Being additionally provided with the water-supply-pipe 5025 of the described storage area of connection 5022 and described liquid storage dish 701 on the sidewall 7012 of described liquid storage dish 701, oxygen flows into described liquid storage dish 701 from described water-supply-pipe 5025 after being sufficiently mixed with the nutritional solution in described storage area 5022.Described lid 5026 is releasable, and the mouth of pipe blocked state of described water-supply-pipe 5025 and appendix 5032 be can be observed when removing described lid 5026, also allows for being carried out described mixing wastewater with air structure 502.

When described beat oxygen module 50 work time, described air pump 501 is passed through oxygen in described gas storage district 5021, now the nutritional solution in storage area 5022 may not flow in gas storage district 5021 because of the barrier of described barrier muscle 5023, the oxygen being passed through enters described storage area 5022 between the top of the top of described barrier muscle 5023 and described mixing wastewater with air structure 502 and is sufficiently mixed with the nutritional solution in storage area 5022, finally flow in described liquid storage dish 701 from described water-supply-pipe 5021, thus reach to the purpose of the root system of plant supplemental oxygen immersed in nutritional solution.

As shown in Figure 10 Yu Figure 11, lighting module 20, ventilation module, Level monitor 40 described in sensor 602 that described electrically-controlled component includes being arranged on temperature, humidity and the intensity of illumination in described casing 10 in detecting described casing 10 and the Data Control that detects according to described sensor 602 and beat the control circuit that oxygen module 50 works.

Being additionally provided with on described casing 10 for controlling and showing temperature in described ecologic planting case 100, humidity, nutritional solution water level and/or the control panel 601 of illumination, described control panel 601 is arranged on the front side of described covering device 105 and is connected with described electrically-controlled component.Described control panel 601 includes within showing plant growing time, described ecologic planting case 100 temperature, humidity and the isoparametric display screen of nutritional solution water level 6011 and in order to control illuminating lamp 201 ON/OFF and duration of turning on light, fan 3022 ON/OFF and the open/close touch key-press of described air pump 501 6012.Described touch key-press 6012 is corresponding with control circuit to be connected, and controls described lighting module 20, ventilation module with selectivity and plays the opening and closing of oxygen module 50, it is achieved Based Intelligent Control.

Described ecologic planting case 100 also includes the intelligent object being connected with electrically-controlled component, described intelligent object is connected with mobile phone signal, thus user can be by the upgrowth situation parameter of mobile phone real time inspection ecologic planting case 100 implants and according to this upgrowth situation parameter regulation described lighting module 20 of control, ventilation module and the running status beating oxygen module 50.Such as, user can control the duration of turning on light of lighting module 20, the ON/OFF of fan 3022 and the ON/OFF of described air pump 501 by mobile phone；Certainly, described intelligent object also can be connected with other equipment that can send control signal (such as: remote controller), with the upgrowth situation of real time inspection plant.

Described ecologic planting case 100 also includes the camera module being connected with mobile phone signal, and plant is taken pictures and photo reaches mobile phone and detects the upgrowth situation of plant for user by described camera module in real time, can also improve the experience enjoyment of user simultaneously.

As shown in figure 13, utilize described ecologic planting case 100 to carry out the ecological vegetable breeding method of soilless cultivation plant, mainly comprise the steps that

Antetheca 101 is taken off from described left support wall 103 and right support wall 104, liquid storage dish 701 is pulled out in described casing 10；

Suitable nutritional solution is selected to inject described liquid storage dish 701 and fill according to kinds of planting；

The lower end that spongy body is put in the through hole 7021 of described breezing plate 702 and made spongy body is immersed in nutritional solution, is put into by plant seed in the groove of described spongy body；

First described liquid storage dish 701 pushed described casing 10 and set back, then the assembling of described antetheca 101 is fixed on left support wall 103 and right support wall 104 and sets back；

Being switched on power by described ecologic planting case 100 and select planting plants kind button, ecologic planting case 100 opens corresponding cultivation program set in advance according to the floristics selected；

Plantation results.

Described cultivation program set in advance is: when plant seed is in nursery stage, described lighting module 20, ventilation module and beat oxygen module 50 and do not work；When plant seed completes nursery and enters growth stage, described lighting module 20, ventilation module and beat oxygen module 50 according to setting program work.Described lighting module 20 provides sufficient light to carry out photosynthesis for plant growing, promotes growth.Described ventilation module is interrupted operating, on the one hand provides carbon dioxide to carry out photosynthesis for plant growing, on the other hand discharges high-concentration oxygen produced by photosynthesis.Described oxygen module 50 of beating also is discontinuity work, to ensure in nutritional solution containing certain density oxygen, provides sufficient oxygen for root system of plant.

When plant is in growth stage, nutritional solution constantly consumes, if nutritional solution is consumed to the red level scale line that can only see on Level monitor 40, then electrically-controlled component detects and send chimes of doom automatically, points out Additional nutrient solution.

In sum, the ecologic planting case 100 of the present invention provides the lighting module 20 of light source, keeps the ventilation module of ecologic planting case 100 inner air flow, beating oxygen module 50 and ecologic planting case 100 is carried out automatically controlled electrically-controlled component for nutritional solution offer oxygen by being set to plant growing in casing 10, thus user to lighting module 20, ventilation module according to the upgrowth situation of plant and can beat oxygen module 50 and carries out Based Intelligent Control, plant is made to grow in optimal environment, pollution-free, non agricultural chemical residuum；Enjoyment is experienced in the plantation that simultaneously can also promote user.

Above example is only in order to illustrate technical scheme and unrestricted, although the present invention being described in detail with reference to preferred embodiment, it will be understood by those within the art that, technical scheme can be modified or equivalent, without deviating from the spirit and scope of technical solution of the present invention.

Claims (10)

1. beat oxygen module for one kind, for providing oxygen to the root system of plant immersed in nutritional solution, it is characterized in that: described oxygen module of beating includes air pump, mixing wastewater with air structure and connects described air pump and the gas distribution channel of air water mixed structure, described mixing wastewater with air structure includes storing the storage area of nutritional solution, is positioned at described storage area side and for the gas storage district of store oxygen and described storage area and gas storage are distinguished the barrier muscle separated, after filling nutritional solution to described storage area, in described storage area, the liquid level of nutritional solution is not higher than the top of described barrier muscle.

The most according to claim 1 beat oxygen module, it is characterised in that: described barrier muscle extends close to the position of described mixing wastewater with air structural top from the bottom up of described mixing wastewater with air structure.

The most according to claim 1 beat oxygen module, it is characterized in that: described play the air pump cover that oxygen module also includes being located at outside described air pump, described gas distribution channel includes that the gas outlet being located on described air pump cover, one end are connected with described gas outlet the appendix that the other end is connected with described mixing wastewater with air inside configuration and the sealing device being tightly connected described gas outlet and appendix.

4. an ecologic planting case, for planting and cultivating plant to be cultivated, described ecologic planting case has casing, it is housed in described casing the breeding apparatus for cultivating plant and beats oxygen module for breeding apparatus implants root system oxygen, it is characterized in that: described oxygen module of beating includes air pump, mixing wastewater with air structure and connect described air pump and the gas distribution channel of air water mixed structure, described breeding apparatus includes the liquid storage dish holding nutritional solution, described mixing wastewater with air structure is arranged on described liquid storage dish and connects described liquid storage dish and air pump, to introduce oxygen into described liquid storage dish and to be sufficiently mixed with nutritional solution.

Ecologic planting case the most according to claim 4, it is characterized in that: described mixing wastewater with air structure includes the storage area for storing nutritional solution, at described storage area side and for the gas storage district of store oxygen and the barrier muscle between described storage area and gas storage district, described barrier muscle extends close to the position of described mixing wastewater with air structural top from the bottom up of described mixing wastewater with air structure.

Ecologic planting case the most according to claim 5, it is characterised in that: after being filled nutritional solution to described storage area, in described storage area, the liquid level of nutritional solution is not higher than the top of described barrier muscle.

Ecologic planting case the most according to claim 4, it is characterized in that: described play the air pump cover that oxygen module also includes being located at outside described air pump, described gas distribution channel includes that the gas outlet being located on described air pump cover, one end are connected with described gas outlet the appendix that the other end is connected with described mixing wastewater with air inside configuration and the sealing device being tightly connected described gas outlet and appendix.

Ecologic planting case the most according to claim 4, it is characterized in that: described casing includes housing the base of described liquid storage dish, the both sides of described base are provided with the slideway for the described free pull of liquid storage dish, when described liquid storage dish is housed in described base completely, described gas distribution channel connects described mixing wastewater with air structure and air pump；When described liquid storage dish is drawn out, described air pump disconnects with described mixing wastewater with air structure.

Ecologic planting case the most according to claim 4, it is characterised in that: described liquid storage dish includes a diapire, from described upwardly extending four sidewalls of diapire four side edge, one of them sidewall caves in useful in the depressed part of accommodating described mixing wastewater with air structure.

Ecologic planting case the most according to claim 9, it is characterized in that: on the sidewall of described liquid storage dish, be additionally provided with the water-supply-pipe connecting described storage area and described liquid storage dish, and the nutritional solution in oxygen with described storage area be sufficiently mixed after flow into described liquid storage dish from described water-supply-pipe.