CN203860115U - Plant container - Google Patents

Abstract

The utility model provides a plant container. The plant container comprises a container body and a water supply device, wherein the container body is provided with a planting chamber and comprises a bottom and a side wall extending upwards from the bottom; the water supply device comprises a partition part and at least one water guiding part, the partition part is arranged in the planting chamber, partitions the planting chamber into a soil culture chamber and a water culture chamber from top to bottom and is provided with at least one water supply channel communicated with the soil culture chamber and the water culture chamber, and the water guiding part is arranged on the water supply channel and extends from the soil culture chamber to the water culture chamber.

Description

Container for plants

Technical field

The utility model relates to a kind of container for plants, relates in particular to a kind of container for plants for planting, and wherein this container for plants has an earth culture chamber that is suitable for holding soil and one for holding the water planting chamber of suitable quantity of water.

Background technology

The common container for plants for planting, as flowerpot, generally there is the vessel basin body of flowerpot (or be referred to as), wherein this vessel has a sidewall and a bottom, bottom is generally provided with osculum (or other hole that allows water to pass through), for the discharge of excessive moisture.For the cultivation medium of plant cultivation, as soil etc., can be placed on the plantation that the basin body of flowerpot forms indoor.

And user's (planting in other words the people of flowers) is when watering, often can forget for a long time and water, or it is too many once to water.

Therefore, this existing flowerpot has following defect: first, when the bottom of this flowerpot arranges when porose, the too much water of user's pouring flows out the osculum from bottom, causes the waste of water.And the discharge of these water causes being planted in plant in flowerpot through lack of water after a period of time.In other words, the existence of osculum causes efficiency that water that user once waters effectively utilized by plant and the reduction of lasting supply time.And if while osculum not being set in bottom, may causing the dilutional hyponatremia in flowerpot and be unfavorable for the growth of plant.Secondly, this flowerpot only can be for earth culture or the water planting of plant.When the bottom of this flowerpot is provided with osculum, this flowerpot can be discharged unnecessary moisture and be planted for the earth culture of plant, but cannot be for the water planting plantation of plant.On the other hand, when this flowerpot bottom no longer arranges osculum, this flowerpot can be for the water planting of plant, but owing to lacking osculum, it cannot discharge water unnecessary in flowerpot and unfavorable to the growth of earth culture plant.Again, this flowerpot too depends on user's irrigation to being planted in the water supply of plant wherein, easily causes the inequality of water supply of the soil of different parts in flowerpot and the irregular growth of plant.When finally, the structure of this flowerpot is unfavorable for earth culture plant to the absorption of moisture and soil (cultivation medium in other words) self-restraint to the moisture of irrigating.Generally, for traditional flowerpot, the water of user's pouring will flow to flowerpot bottom from top to bottom.In other words, the water content of the soil on flowerpot top is higher than the water content of the soil of flowerpot bottom, and the root growth of plant is at the soil of flowerpot bottom.In addition, in flowerpot, the water loss of soil, except the transpiration of plant, also comprises the evaporation of soil moisture.The more high-moisture of the soil on flowerpot top has improved the evaporation discharge of soil moisture.

Utility model content

Main advantage of the present utility model is that it provides a kind of container for plants, and wherein this container for plants has an earth culture chamber and a water planting chamber, thereby makes this container for plants can be used for earth culture plantation and the water planting plantation of plant.

Another advantage of the present utility model is that it provides a kind of container for plants, and wherein this container for plants is provided with earth culture chamber and a water planting chamber one by one, so that the too much water of user's pouring can be collected in water planting chamber and the loss of reduction water.

Another advantage of the present utility model is that it provides a kind of container for plants, and wherein this container for plants is provided with a water supply with automatically with constantly to the soil water supply in earth culture chamber, and water unnecessary in flowerpot is discharged.In other words, user once irrigates and can make the plant in flowerpot within considerable time, no longer lack moisture the plant in flowerpot, and does not need to worry the heavy irrigation to plant.

Another advantage of the present utility model is that it provides a kind of container for plants, wherein this container for plants is provided with an even water layer, and wherein this even water layer can prevent that the soil particle in earth culture chamber from entering water planting chamber and the water from water supply is offered to the soil in earth culture chamber more equably.

Another advantage of the present utility model is that it provides a kind of container for plants, wherein the water planting chamber of this container for plants setting is arranged on the below of its earth culture chamber, thereby has slowed down the loss speed of moisture in flowerpot and can be the soil supply moisture in earth culture chamber from bottom to up.

Another advantage of the present utility model is that it provides a kind of water supply for container for plants, and wherein this water supply can, by common container for plants in the situation that not utilizing any instrument, as flowerpot, repack the utility model container for plants into.In like manner, user can also, by removing the mode of the water supply of the utility model container for plants, be transformed into traditional flowerpot by the utility model container for plants.

Another advantage of the present utility model is that it provides a kind of container for plants, and wherein this container for plants does not need accurate parts and complicated structure, and its manufacturing process is simple, with low cost and easy to use.Other advantage of the present utility model and feature are fully demonstrated by following detailed description and can be achieved by the means specially pointed out in claims and the combination of device.

According to the utility model, the utility model that can realize aforementioned object and other objects and advantage comprises: a vessel and a water supply, wherein this vessel has a plantation chamber, wherein this vessel comprises that a bottom and one are from the upwardly extending sidewall in this bottom, this water supply comprises a distance piece, one group of water guiding piece and at least one water level are controlled conduit, wherein to be located at that the indoor and from top to down of this plantation separates this plantation chamber be an earth culture chamber and a water planting chamber to this distance piece, this bottom of this vessel has an osculum, wherein this distance piece has one group of water service duct and at least one water level control channel, wherein this water level control channel is communicated with this earth culture chamber and this water planting chamber, each this water service duct is communicated with this earth culture chamber and this water planting chamber, wherein this water guiding piece is located at respectively this water service duct and is extended downward this water planting chamber from this earth culture chamber, wherein this water level control conduit watertight feud be located at this vessel bottom osculum and from this bottom, extend upwardly to this water level control channel of this distance piece, so that can controlling conduit by this water level, the water in this earth culture chamber discharges.

The utility model also further provides a kind of container for plants, wherein this container for plants comprises a vessel and a water supply, wherein this vessel has a plantation chamber, wherein this vessel comprises that a bottom and one are from the upwardly extending sidewall in this bottom, this water supply comprises a distance piece and at least one water guiding piece, wherein this distance piece is located at that this plantation is indoor and this plantation chamber to be separated be an earth culture chamber and a water planting chamber from top to bottom, wherein this distance piece has the water service duct that at least one is communicated with this earth culture chamber and this water planting chamber, wherein this water guiding piece is located at this water service duct and is extended downward this water planting chamber from this earth culture chamber.

The utility model also further provides a kind of water supply for container for plants, wherein this water supply comprises a distance piece, one group of water guiding piece and at least one water level are controlled conduit, wherein this distance piece is suitable for being located at that the indoor and from top to down of a plantation of this container for plants separates this plantation chamber is an earth culture chamber and a water planting chamber, wherein this distance piece has one group of water service duct and at least one water level control channel, wherein each this water service duct is communicated with this earth culture chamber and this water planting chamber, wherein this water level control channel is communicated with this earth culture chamber and this water planting chamber, wherein this water guiding piece is located at respectively this water service duct and can be extended downward from this earth culture chamber this water planting chamber, wherein this water level control conduit is suitable for being located at this water level control channel of this distance piece and can extending downward from this earth culture chamber this water planting chamber.

By the understanding of the description to subsequently and accompanying drawing, the further object of the utility model and advantage will be fully demonstrated.

These and other objects of the present utility model, characteristics and advantages, by following detailed description, accompanying drawing and claim are fully demonstrated.

Accompanying drawing explanation

Fig. 1 is the front view according to the container for plants of the utility model preferred embodiment.

Fig. 2 is the vertical view of the container for plants according to above-mentioned the utility model preferred embodiment.

Fig. 3 is the cutaway view of the container for plants according to above-mentioned the utility model preferred embodiment.

Fig. 4 is the stereogram of the water supply of the container for plants according to above-mentioned the utility model preferred embodiment.

Fig. 5 is the stereogram of the retaining layer of the container for plants according to above-mentioned the utility model preferred embodiment.

Fig. 6 is the stereogram according to a kind of optional enforcement of the container for plants of the utility model preferred embodiment.

Fig. 7 is the vertical view of the above-mentioned optional enforcement of the container for plants according to above-mentioned the utility model preferred embodiment.

Fig. 8 is the cutaway view of the above-mentioned optional enforcement of the container for plants according to above-mentioned the utility model preferred embodiment.

Fig. 9 is the stereogram of the optional enforcement of another kind of the container for plants according to above-mentioned the utility model preferred embodiment.

Figure 10 illustrates a kind of optional enforcement according to the water guiding piece of the water supply of above-mentioned the utility model preferred embodiment.

Embodiment

Following description is disclosed so that those skilled in the art can manufacture and use the utility model.The preferred embodiment providing in following description is only as example and the modification that it will be apparent to those skilled in the art, and it does not form the restriction to the utility model scope.In following description defined General Principle can not deviate from the utility model spirit and utility model scope and be applied to other embodiment, optional substitute, revise, be equal to implement and apply.

With reference to the Fig. 1 to Fig. 5 of the accompanying drawing, the container for plants of this utility model the first preferred embodiment is illustrated, wherein this container for plants comprises a vessel 10 and a water supply 20, wherein this vessel 10 has a plantation chamber 100, wherein this vessel 10 comprises that a bottom 11 and one are from the upwardly extending sidewall 12 in this bottom 11, this water supply 20 comprises a distance piece 21 and at least one water guiding piece 22, wherein to be located in this plantation chamber 100 and from top to bottom this plantation chamber 100 to be separated be an earth culture chamber 101 and a water planting chamber 102 to this distance piece 21, wherein this distance piece 21 has the water service duct 2101 that at least one is communicated with this earth culture chamber 101 and this water planting chamber 102, wherein this water guiding piece 22 is located at this water service duct 2101 and is extended downward this water planting chamber 102 from this earth culture chamber 101.In other words, this water guiding piece 22 passes the water service duct 2101 of this distance piece 21 and extends to this water planting chamber 102 from this earth culture chamber 101.Preferably, this distance piece 21 of this water supply 20 is located at the plantation chamber 100 of this vessel 10, and mutually one-body molded with this sidewall 12 of this vessel 10.Alternatively, this distance piece 21 of this water supply 20 is removably located in the plantation chamber 100 of this vessel 10.

Be understandable that this water guiding piece 22 is by forming capillary water permeable material, as china clay material, clay material, cotton fiber or other similar material are made, thereby make this water guiding piece 22 under capillarity, the water in water planting chamber 102 to be upwards delivered to the soil in earth culture chamber 101.In other words, this water guiding piece 22 is made and can under capillarity, the water in water planting chamber 102 be upwards delivered to the soil in earth culture chamber 101 by forming capillary water permeable material.

It should be noted that this container for plants of the utility model has an earth culture chamber 101 and a water planting chamber 102, thereby make this container for plants not only can be used in planting soil, cultivate thing, be also suitable for planting hydroponic plant.When this container for plants of the utility model is cultivated thing for planting soil, for the soil of planting plants, be placed on this earth culture chamber 101, wall 21 plays the effect of supporting soil, for continuing water or the nutrient solution of plant irrigating, is accommodated in this water planting chamber 102; When this container for plants of the utility model is used for planting hydroponic plant, in earth culture chamber 101, also for holding water or nutrient solution, this wall 21 can be used for plant support and remains on appropriate location.

As shown in Fig. 3 of accompanying drawing and Fig. 4, the water supply 20 of this container for plants further comprises a water level control conduit 23, this bottom 11 of this vessel 10 is further provided with an osculum 110, wherein this water level is controlled conduit 23 and is comprised that an end portion 231 and one are from the upwardly extending high end 232 of this end portion 231, wherein this end portion 231 of this water level control conduit 23 is located at hermetically osculum 110 and extends upward from this bottom 11 of this vessel 10, wherein this water level control conduit 23 has a water stream channel 230, this end portion 231 of controlling conduit 23 with this water level has a low end opening 2310, this high end 232 has a high end opening 2320, wherein this high end opening 2320 of this high end 232 and this low end opening 2310 of this end portion 231 are all connected with this water stream channel 230, thereby while making horizontal plane in this water planting chamber 102 control the high end opening 2320 of conduit 23 higher than this water level, water in this water planting chamber 102 can pass through this high end opening 2320 and flow into low end opening 2310 discharges that these water levels are controlled this water stream channel 230 of conduit 23 and controlled this end portion 232 of conduit 23 by this water level.That is to say, the osculum 110 of the bottom 11 of this vessel 10 is located in these end portion 231 watertight feuds of controlling conduit 23 due to this water level, therefore, water in this water planting chamber 102 no longer can be discharged from this osculum 110, and this high end opening 2320 that can only control the high end 232 of conduit 23 by this water level flows into, these water levels are controlled this water stream channel 230 of conduit 23 and this water level is controlled this end portion 231 of conduit 23 certainly this low end opening 2310 is discharged.Preferably, this water level of this water supply 20 is controlled these end portion 231 watertight feuds of conduit 23 and is removably located at the osculum 110 of the bottom 11 of this vessel 10.Alternatively, this distance piece 21 of this water supply 20 has a water level control channel 2102, wherein this water level control channel 2102 is communicated with this earth culture chamber 101 and this water planting chamber 102, this end portion 231 that wherein conduit 23 is controlled from this water level in this high end 232 of this water level control conduit 23 extends upwardly to the distance piece 21 of this water supply 20 and passes this water level control channel 2102, thereby while making horizontal plane in this earth culture chamber 101 control this high end opening 2320 of this high end 232 of conduit 23 higher than this water level, water in this earth culture chamber 101 can be discharged by this high end opening 2320.In other words, this high end 232 that this water level is controlled conduit 23 extends upwardly to the distance piece 21 of this water supply 20 and passes this water level control channel 2102 from this end portion 231 of this water level control conduit 23, so that the water in this earth culture chamber 101 can pass through these low end opening 2310 discharges that this high end opening 2320 of this high end 232 flows into the water stream channel 230 of this water level control conduit 23 and controls this end portion 231 of conduit 23 through this water level.

Be understandable that, the water guiding piece 22 of this water supply 20 transfers to this earth culture chamber 101 by the water in this water planting chamber 102 and provides water with the soil in earth culture chamber 101, and this water level of this water supply 20 is controlled conduit 23 and the unnecessary water in this earth culture chamber 101 or this water planting chamber 102 can be discharged, thereby prevent the growth of the too high and unfavorable plant of soil moisture content in this earth culture chamber 101.In other words, the wall 21 of this water supply 20, water guiding piece 22 and water level are controlled conduit 23 and have been formed a water supply controlling organization, when providing water with the soil in this earth culture chamber 101 of trend, control the water level in this earth culture chamber 101 or this water planting chamber 102.

As shown in Fig. 2 of accompanying drawing and Fig. 4, preferably, this distance piece 21 has one group of water service duct 2101, comprise one group of water guiding piece 22 with this distance piece 21, wherein this group water service duct 2101 is arranged spaced reciprocally and equably and each this water service duct 2101 is all communicated with this earth culture chamber 101 and this water planting chamber 102, and wherein this water guiding piece 22 is located at respectively in this water service duct 2101 and from this earth culture chamber 101 and is extended downward this water planting chamber 102.In other words, each this water guiding piece 22 passes the water service duct 2101 of this distance piece 21 and extends to this water planting chamber 102 from this earth culture chamber 101, and this water guiding piece 22 is arranged equably, thereby make this water guiding piece 22 more even to the distribution of the water providing in earth culture chamber 101.

As shown in Fig. 3 of accompanying drawing and Fig. 5, container for plants according to the utility model the first preferred embodiment further comprises a retaining layer 30, have a upper side 211 with this distance piece 21, the upper side 211 that wherein this retaining layer 30 is located at this distance piece 21 is to support the soil in this earth culture chamber 101 and remain in this earth culture chamber 101.In other words, soil particle in these retaining layer 30 these earth culture chambers 101 of prevention enters water planting chamber 102 by water service duct 2101 and this water level control channel 2102 of this distance piece 21, and this high end opening 2320 that stops the soil particle in this earth culture chamber 101 to control this high end 232 of conduit 23 by this water level enters this water stream channel 230.

It should be noted that, this retaining layer 30 is preferably formed by weaving by the cotton thread with good water permeability, thereby make this retaining layer 30 support and keep soil in this earth culture chamber 101 be in this earth culture chamber 101 in, can also make the distribution of the water that this water guiding piece 22 provides to the soil in earth culture chamber 101 more even.In addition, the tip of a root of plant of being made and be planted in this container for plants by the cotton thread with favorable elasticity due to this retaining layer 30 is in the inhomogeneities of spatial distribution, and therefore, the retaining layer 30 that should be woven into by cotton thread will can not hamper the free growth of the tip of a root of plant.More preferably, the cotton (or cotton yarn) that this retaining layer 30 is formed by weaving for having the cotton thread of good water permeability, the diameter of wherein making the cotton thread of this cotton is, the aperture of this cotton is 0.05mm～2.0mm, so that be planted in the tip of a root of the root of the plant in this container for plants, can pass freely through the aperture of this cotton and reduce the free growing impact of this retaining layer 30 on the tip of a root of this plant.

Be understandable that, according to the sidewall 11 of the vessel 10 of the container for plants of the utility model preferred embodiment with make by water-stop material bottom 12 or through water-stop PROCESS FOR TREATMENT, thereby make the sidewall 11 of this vessel 10 and bottom 12 all can not cause water loss.

As shown in Fig. 6 to Fig. 8 of accompanying drawing, this container for plants further comprises a shell body 40 and one group of water infiltrating irrigation element 50, wherein this shell body 40 has an accommodating chamber 400 so that this vessel 10 is held in the inner, wherein this shell body 40 has a shell bottom wall 41 and one from the upwardly extending housing sidewall 42 of this shell bottom wall 41, wherein this shell bottom wall 41 stretches out from the bottom 11 of this vessel 10, wherein this vessel 10 of this container for plants and this shell body 40 form a reservoir chamber 1 being positioned between the two, wherein one end of each this water infiltrating irrigation element 50 can be buried in the soil in the earth culture chamber 101 of vessel 10 of this container for plants, the other end is located at this reservoir chamber 1, with under capillarity, water in reservoir chamber 1 is carried to the soil in earth culture chamber 101.In other words, each this water infiltrating irrigation element 50 is by forming capillary water permeable material, as china clay material, clay material, cotton fiber or other similar material are made, thereby make this water guiding piece 22 under capillarity, the water in water planting chamber 102 to be upwards delivered to the soil in earth culture chamber 101.

As shown in Figure 10 of accompanying drawing, a kind of optional enforcement according to this container for plants of the utility model preferred embodiment is illustrated, wherein this container for plants comprises a vessel 10 and a water supply 20, wherein this vessel 10 has a plantation chamber 100, wherein this vessel 10 comprises that a bottom 11 and one are from the upwardly extending sidewall 12 in this bottom 11, this water supply 20 comprises a distance piece 21 and at least one water guiding piece 22, wherein to be located in this plantation chamber 100 and from top to bottom this plantation chamber 100 to be separated be an earth culture chamber 101 and a water planting chamber 102 to this distance piece 21, wherein this distance piece 21 has the water service duct 2101 that at least one is communicated with this earth culture chamber 101 and this water planting chamber 102, wherein this water guiding piece 22 is located in this water service duct 2101 and from this earth culture chamber 101 and is extended downward this water planting chamber 102, wherein the sidewall 12 of this vessel 10 has an outer surface 121A and has at least one osculum 120A and at least one guiding gutter 1210A, wherein guiding gutter 1210A is located at the outer surface 121A of this sidewall 12 bottom 12 that from top to down extends to this vessel 10, wherein this guiding gutter 1210A is connected with this osculum 120A, so that the water flowing out from this osculum 120A can flow downward along this guiding gutter 1210A.Preferably, this osculum 120A is located at the top of the distance piece 21 of this water supply 20.More preferably, the sidewall 12 of this vessel 10 has the one group of osculum 120A of this outer surface 121A and guiding gutter 1210A of one group of this outer surface 121A that is located at spaced reciprocally and equably this sidewall 12 that is located at spaced reciprocally and equably this sidewall 12.

As shown in Fig. 4 of accompanying drawing, the utility model also further provides a kind of water supply 20 for container for plants, wherein this water supply 20 has a distance piece 21, one group of water guiding piece 22 and at least one water level are controlled conduit 23, wherein this distance piece 21 be suitable for being located in a plantation chamber 100 of this container for plants and from top to down this plantation chamber 100 is separated is an earth culture chamber 101 and a water planting chamber 102, wherein this distance piece 21 has one group of water service duct 2101 and at least one water level control channel 2102, wherein this water level control channel 2102 is communicated with this earth culture chamber 101 and this water planting chamber 102, each this water service duct 2101 is communicated with this earth culture chamber 101 and this water planting chamber 102, wherein this water guiding piece 22 is located at respectively this water service duct 2101 and can be extended downward from this earth culture chamber 101 this water planting chamber 102, wherein this water level control conduit 23 is suitable for being located at this water level control channel 2102 of this distance piece 21 and can extending downward from this earth culture chamber 101 this water planting chamber 102.

Further, this water supply 20 comprises a retaining layer 30, and this distance piece 21 has a upper side 211, and wherein this retaining layer 30 is located at the upper side 211 of this distance piece 21.

It should be noted that as shown in Fig. 1 to Fig. 9 of accompanying drawing, the water guiding piece 22 of this water supply 20 is made the soil in the earth culture chamber 11 that also can the water transport in water planting chamber 102 or reservoir chamber 1 be transported to this vessel 10 under capillarity by cotton thread.As a kind of optional enforcement of the water guiding piece 22 that Figure 10 shows that this water supply 20 of accompanying drawing, wherein this water guiding piece 22A makes by forming capillary china clay material.

Those skilled in the art can understand that the utility model embodiment shown in accompanying drawing and described above is only to example of the present utility model rather than restriction.

Can see that thus the utility model object can fully effectively be completed.For explaining that this embodiment of the utility model function and structure principle has been absolutely proved and described, and the utility model is not subject to the restriction of the change based on these embodiment principle bases.Therefore, the utility model comprises all modifications being encompassed within appended claims book claimed range and spirit.

Claims (30)

1. a container for plants, is characterized in that, comprising:

A vessel; With

A water supply, wherein said vessel has a plantation chamber, wherein said vessel comprises that a bottom and one are from the upwardly extending sidewall in described bottom, described water supply comprises a distance piece, one group of water guiding piece and at least one water level are controlled conduit, it is an earth culture chamber and a water planting chamber that wherein said distance piece is located at that the indoor and from top to down of described plantation separates described plantation chamber, the described bottom of described vessel has an osculum, wherein said distance piece has one group of water service duct and at least one water level control channel, wherein said water level control channel is communicated with described earth culture chamber and described water planting chamber, described in each, water service duct is communicated with described earth culture chamber and described water planting chamber, wherein said water guiding piece is located at respectively described water service duct and is extended downward described water planting chamber from described earth culture chamber, wherein said water level control conduit watertight feud be located at described vessel bottom osculum and from described bottom, extend upwardly to the described water level control channel of described distance piece, so that can controlling conduit by described water level, the water in described earth culture chamber discharges.

2. container for plants according to claim 1, is characterized in that, described water guiding piece is made and can under capillarity, the water in water planting chamber be upwards delivered to the soil in earth culture chamber by forming capillary water permeable material.

3. container for plants according to claim 1, it is characterized in that, further comprise a retaining layer, and described distance piece has a upper side, the upper side that wherein said retaining layer is located at described distance piece is to support the soil in described earth culture chamber and to remain on described earth culture indoor.

4. container for plants according to claim 2, it is characterized in that, further comprise a retaining layer, and described distance piece has a upper side, the upper side that wherein said retaining layer is located at described distance piece is to support the soil in described earth culture chamber and to remain on described earth culture indoor.

5. container for plants according to claim 1, it is characterized in that, described water level is controlled conduit and is comprised that an end portion and one are from the upwardly extending high end of described end portion, wherein said water level is controlled the described end portion of conduit and is located at hermetically osculum and extends upward from the described bottom of described vessel, wherein said water level is controlled conduit and is had a water stream channel, the described end portion of controlling conduit with described water level has a low end opening, described high end has a high end opening, the described high end opening of wherein said high end and the described low end opening of described end portion are all connected with described water stream channel, the described high end that wherein said water level is controlled conduit extends upwardly to the described distance piece of described water supply and passes described water level control channel from the described end portion of described water level control conduit, so that the water in described earth culture chamber can flow into by the described high end opening of described high end described water level, control the water stream channel of conduit and discharge through the described low end opening that described water level is controlled the described end portion of conduit.

6. container for plants according to claim 4, it is characterized in that, described water level is controlled conduit and is comprised that an end portion and one are from the upwardly extending high end of described end portion, wherein said water level is controlled the described end portion of conduit and is located at hermetically osculum and extends upward from the described bottom of described vessel, wherein said water level is controlled conduit and is had a water stream channel, the described end portion of controlling conduit with described water level has a low end opening, described high end has a high end opening, the described high end opening of wherein said high end and the described low end opening of described end portion are all connected with described water stream channel, the described high end that wherein said water level is controlled conduit extends upwardly to the described distance piece of described water supply and passes described water level control channel from the described end portion of described water level control conduit, so that the water in described earth culture chamber can flow into by the described high end opening of described high end described water level, control the water stream channel of conduit and discharge through the described low end opening that described water level is controlled the described end portion of conduit.

7. container for plants according to claim 5, is characterized in that, the osculum of the bottom of described vessel is located in the described end portion watertight feud of described water level control conduit.

8. container for plants according to claim 6, is characterized in that, the osculum of the bottom of described vessel is located in the described end portion watertight feud of described water level control conduit.

9. container for plants according to claim 1, is characterized in that, described water service duct is arranged spaced reciprocally and equably.

10. container for plants according to claim 8, is characterized in that, described water service duct is arranged spaced reciprocally and equably.

11. container for plants according to claim 1, it is characterized in that, further comprise a retaining layer, and described distance piece has a upper side, the upper side that wherein said retaining layer is located at described distance piece is to support the soil in described earth culture chamber and to remain on described earth culture indoor.

12. container for plants according to claim 9, it is characterized in that, further comprise a retaining layer, and described distance piece has a upper side, the upper side that wherein said retaining layer is located at described distance piece is to support the soil in described earth culture chamber and to remain on described earth culture indoor.

13. container for plants according to claim 12, it is characterized in that, described retaining layer is formed by weaving by cotton thread, thereby make described retaining layer support and keep the soil in described earth culture chamber to be in described earth culture chamber, and can make the distribution of the water that described water guiding piece provides to the soil in earth culture chamber more even.

14. container for plants according to claim 13, is characterized in that, make by water-stop material or process water-stop PROCESS FOR TREATMENT the sidewall of described vessel and bottom.

15. container for plants according to claim 1, it is characterized in that, further comprise a shell body and one group of water infiltrating irrigation element, wherein said shell body has an accommodating chamber so that described vessel is held in the inner, wherein said shell body has a shell bottom wall and one from the upwardly extending housing sidewall of described shell bottom wall, wherein said shell bottom wall stretches out from the described bottom of described vessel, wherein said vessel and described shell body form a retaining chamber being positioned between the two, wherein described in each, one end of water infiltrating irrigation element can be buried in the soil in the earth culture chamber of vessel of described container for plants, the other end is located at described retaining chamber, with under capillarity, water in retaining chamber is carried to the soil in earth culture chamber.

16. container for plants according to claim 14, it is characterized in that, further comprise a shell body and one group of water infiltrating irrigation element, wherein said shell body has an accommodating chamber so that described vessel is held in the inner, wherein said shell body has a shell bottom wall and one from the upwardly extending housing sidewall of described shell bottom wall, wherein said shell bottom wall stretches out from the described bottom of described vessel, wherein said vessel and described shell body form a retaining chamber being positioned between the two, wherein described in each, one end of water infiltrating irrigation element can be buried in the soil in the earth culture chamber of vessel of described container for plants, the other end is located at described retaining chamber, with under capillarity, water in retaining chamber is carried to the soil in earth culture chamber.

17. 1 kinds of water supplies for container for plants, is characterized in that, comprising:

A distance piece;

One group of water guiding piece; With

At least one water level is controlled conduit, wherein said distance piece is suitable for being located at that the indoor and from top to down of a plantation of described container for plants separates described plantation chamber is an earth culture chamber and a water planting chamber, wherein said distance piece has one group of water service duct and at least one water level control channel, wherein described in each, water service duct is communicated with described earth culture chamber and described water planting chamber, wherein said water level control channel is communicated with described earth culture chamber and described water planting chamber, wherein said water guiding piece is located at respectively described water service duct and can be extended downward from described earth culture chamber described water planting chamber, wherein said water level is controlled conduit and is suitable for being located at the described water level control channel of described distance piece and can extending downward from described earth culture chamber described water planting chamber.

18. water supplies for container for plants according to claim 17, it is characterized in that, described water guiding piece is made and can under capillarity, the water in water planting chamber be upwards delivered to the soil in earth culture chamber by forming capillary water permeable material.

19. water supplies for container for plants according to claim 18, is characterized in that, further comprise a retaining layer, and described distance piece has a upper side, and wherein said retaining layer is located at the upper side of described distance piece.

20. water supplies for container for plants according to claim 19, is characterized in that, described water service duct is arranged spaced reciprocally and equably.

21. 1 kinds of container for plants, is characterized in that, comprising:

A vessel; With

A water supply, wherein said vessel has a plantation chamber, wherein said vessel comprises that a bottom and one are from the upwardly extending sidewall in described bottom, described water supply comprises a distance piece and at least one water guiding piece, wherein said distance piece is located at that described plantation is indoor and described plantation chamber to be separated be an earth culture chamber and a water planting chamber from top to bottom, wherein said distance piece has at least one water service duct that is communicated with described earth culture chamber and described water planting chamber, wherein said water guiding piece is located at described water service duct and is extended downward described water planting chamber from described earth culture chamber.

22. container for plants according to claim 21, is characterized in that, described water guiding piece is made and can under capillarity, the water in water planting chamber be upwards delivered to the soil in earth culture chamber by forming capillary water permeable material.

23. container for plants according to claim 21, it is characterized in that, further comprise a retaining layer, and described distance piece has a upper side, the upper side that wherein said retaining layer is located at described distance piece is to support the soil in described earth culture chamber and to remain on described earth culture indoor.

24. container for plants according to claim 22, it is characterized in that, further comprise a retaining layer, and described distance piece has a upper side, the upper side that wherein said retaining layer is located at described distance piece is to support the soil in described earth culture chamber and to remain on described earth culture indoor.

25. container for plants according to claim 23, it is characterized in that, described retaining layer is formed by weaving by cotton thread, thereby make described retaining layer support and keep the soil in described earth culture chamber to be in described earth culture chamber, and can make the distribution of the water that described water guiding piece provides to the soil in earth culture chamber more even.

26. container for plants according to claim 24, it is characterized in that, described retaining layer is formed by weaving by cotton thread, thereby make described retaining layer support and keep the soil in described earth culture chamber to be in described earth culture chamber, and can make the distribution of the water that described water guiding piece provides to the soil in earth culture chamber more even.

27. container for plants according to claim 21, it is characterized in that, the sidewall of wherein said vessel has an outer surface, one group of osculum and one group of guiding gutter, wherein said osculum is located at described sidewall spaced reciprocally and equably, described guiding gutter is located at the outer surface of described sidewall the bottom that from top to down extends to described vessel spaced reciprocally and evenly, wherein said guiding gutter is connected with described osculum respectively, so that the water flowing out from described osculum can flow downward along described guiding gutter.

28. container for plants according to claim 26, it is characterized in that, the sidewall of described vessel has an outer surface, one group of osculum and one group of guiding gutter, wherein said osculum is located at described sidewall spaced reciprocally and equably, described guiding gutter is located at the outer surface of described sidewall the bottom that from top to down extends to described vessel spaced reciprocally and equably, wherein said guiding gutter is connected with described osculum respectively, so that the water flowing out from described osculum can flow downward along described guiding gutter.

29. container for plants according to claim 21, is characterized in that, make by water-stop material or process water-stop PROCESS FOR TREATMENT the sidewall of described vessel and bottom.

30. container for plants according to claim 28, is characterized in that, make by water-stop material or process water-stop PROCESS FOR TREATMENT the sidewall of described vessel and bottom.