CN201612057U - Flowerpot structure with functions of automatically supplying water and adjusting moisture in soil - Google Patents
Flowerpot structure with functions of automatically supplying water and adjusting moisture in soil Download PDFInfo
- Publication number
- CN201612057U CN201612057U CN2009202980865U CN200920298086U CN201612057U CN 201612057 U CN201612057 U CN 201612057U CN 2009202980865 U CN2009202980865 U CN 2009202980865U CN 200920298086 U CN200920298086 U CN 200920298086U CN 201612057 U CN201612057 U CN 201612057U
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- China
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- flowerpot
- soil
- pedestal
- moisture
- absorbent material
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- Expired - Fee Related
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- Cultivation Receptacles Or Flower-Pots, Or Pots For Seedlings (AREA)
Abstract
The utility model relates to a flowerpot structure with the functions of automatically supplying water and adjusting moisture in soil, which is mainly formed by combining a seat and absorbent materials, wherein the seat is manufactured by integrally forming. Two or more supporting socles are arranged on the bottom surface of the seat; two or more flowerpots for planting flowers and two or more longitudinal and transverse grooves for storing water are arranged on the end surface of the seat; a drain hole is arranged on the bottom surface of each flowerpot; notches are arranged on the wall of each flowerpot; and the absorbent materials are arranged inside the longitudinal and transverse grooves and overspread on the periphery of each flowerpot. By employing the absorbent materials to store water and contact with the soil when passing through the notches to generate the functions of transferring moisture into the soil and the like, proper moisture can be constantly maintained in the soil inside the flowerpots. When moisture content inside the flowerpots is saturate, redundant moisture is drained out of the seat from the drain hole on the bottom surface of each flowerpot, thereby the flowerpot structure achieves the purposes of being capable of automatically supplying water and automatically adjusting the moisture in the soil of the flowerpots.
Description
Technical field
The utility model relates to a kind of structure-improved of flowerpot, but particularly relates to a kind of flowerpot structure with moisture function in self water feeding and the adjusting soil.
Background technology
Flowerpot mainly is to use as the container that the plantation flowers are used.In the streets the Flower-pot structure of general usefulness is in bottom central authorities osculum to be set, so as to discharging redundant moisture in the flowerpot soil, do not cause flowers and plants plant roots long period of soaking among redundant moisture and addle, simultaneously, mostly be equipped with water-collecting tray, so as to gathering the sewage that flowerpot is discharged in the flowerpot bottom.Yet adopt the structure of this traditional flowerpot and water-collecting tray, not only can't regulate the moisture in the soil in the flowerpot, and can be immersed in for a long time in the water-collecting tray of collecting moisture, and easily cause plant root to addle, cause whole plant rotten and dead at last because of the flowerpot bottom surface.So for preventing that similar situation from taking place,, also to usually topple over interior the catchmenting of water-collecting tray except that will usually inspecting whether water-collecting tray catchment and clear up.So, not only can't self water feeding and regulate the moisture in the soil in the flowerpot automatically, cause the user on looking after, must take a lot of trouble more, time-consuming outside, simultaneously also can't store redundant moisture, cause and have the drawback of waste water resource, therefore, improved necessity is arranged in fact again.
The utility model content
Main purpose of the present utility model has self water feeding and regulates the flowerpot structure of moisture function in the soil but promptly be to provide a kind of; It is mainly combined by pedestal and absorbent material, the manufacture of wherein said pedestal is formed in one, its bottom surface is provided with two or more socles and is provided with two or more plantation flowerpot and water storages of using of flowers and two or more vertical and horizontal groove that described absorbent material is used is set on its end face, described each flowerpot is all surrounded by described vertical and horizontal groove, described each flowerpot bottom surface also offers several osculums and offer the breach of appropriate depth on the wall of described flowerpot, it is interior and concordant with the last ora terminalis of described flowerpot that described absorbent material is arranged on the vertical and horizontal groove of described each bar, be covered with absorbent material around making each flowerpot, store the water yield and contact the transmission moisture effect such as grade to the soil that produces constantly with soil by described absorbent material by described breach, make the soil in the described flowerpot can keep suitable moisture constantly, when the water content in the described flowerpot reaches capacity, redundant moisture is just discharged outside the described pedestal by the osculum of described flowerpot bottom surface, but the purpose that reaches self water feeding and regulate moisture in the flowerpot soil automatically.
Another purpose of the present utility model, but be to provide another kind to have the flowerpot structure of moisture function in self water feeding and the adjusting soil; It is mainly combined by pedestal and absorbent material, the manufacture of wherein said pedestal is formed in one, its bottom surface is provided with two or more socles and is provided with two or more plantation flowerpot and water storages of using of flowers and the two or more freestanding aqua storage tank that described absorbent material is used is set on its end face, and make the breach that offers appropriate depth on the contiguous flowerpot of each aqua storage tank limit be communicated with flowerpot, borrow this aqua storage tank that absorbent material is set, be covered with absorbent material around making each flowerpot, produce transmission moisture by the absorbent material storage water yield and through breach contacts with soil constantly and to soil, wait effect, make the soil in the flowerpot can keep suitable moisture constantly, when water content reaches capacity in the flowerpot, redundant moisture is just discharged outside the pedestal by the osculum of flowerpot bottom surface, but the purpose that reaches self water feeding and regulate moisture in the flowerpot soil automatically.
Description of drawings
Fig. 1 is a three-dimensional exploded view of the present utility model.
Fig. 2 is a combination cross-sectional schematic of the present utility model.
Fig. 3 is the anchor clamps schematic perspective view in the utility model.
Fig. 4 connects into schematic perspective view as the large tracts of land flowerpot as the seascape for the utility model utilizes anchor clamps with two or more pedestal unit.
Fig. 5 is the vertical view of Fig. 4.
Fig. 6 is the cross section view of Fig. 4.
Fig. 7 is the schematic perspective view of the utility model plant hollow permeability cell on the formed hole in the connection center of two or more pedestal unit.
Fig. 8 is an another kind of example structure schematic perspective view of the present utility model.
Fig. 9 is along the generalized section of A-A line among Fig. 8.
Description of reference numerals
1 pedestal, 2 absorbent materials, 10 socles
11 flowerpots, 12 grooves, 110 osculums
111,130 breach, 3 anchor clamps, 30 slot holes
112 arc chord angles, 4 small holes, 5 hollow permeability cells
13 aqua storage tanks
Embodiment
Shown in Fig. 1~2, be three-dimensional exploded perspective schematic diagram of the present utility model and combination generalized section.By Fig. 1~2 as can be known, the utility model is mainly combined by pedestal 1 and absorbent material 2.Wherein pedestal 1 mode that is formed in one is produced in a large number, can effectively reduce its manufacturing cost; This pedestal 1 bottom surface has two or more socles 10 to support whole pedestal 1, and on end face and be provided with two or more flowerpots 11 and two or more groove 12, make all being surrounded of each flowerpot 11 all around by the ditch mortise 12 of portraitlandscape, on the bottom surface of each flowerpot 11, offer several osculums 110 and offer breach 111 in the upper end of every sidewalls of flowerpot, make pedestal 1 form a unit by said structure, and can reduce cost by a large amount of production of one-body molded mode, can easily two or more pedestals Unit 1 be connected whereby and be integral again simultaneously, with the purpose of finishing on same plane or end face is planted flowers comprehensively.Absorbent material 2 then is arranged in the groove 12 concordant with ora terminalis on the flowerpot 11, this absorbent material 2 can be contacted constantly by the soil in breach 111 and the flowerpot 11, make the moisture that is stored in the groove 12 whereby, can moisture be transmitted in the soil that gives in each flowerpot 11 via each breach 111 by the pore principle of absorbent material 2, reach the purpose of self water feeding.When the hypervolia in the soil in the flowerpot 11, can utilize the osculum 110 on flowerpot 11 bottom surfaces that too much water is discharged outside the flowerpot 11, make the soil in the flowerpot 11 can obtain suitable humidity, reach purpose with moisture in the interior soil of automatic adjusting flowerpot.
Shown in Fig. 3~6, for the anchor clamps schematic perspective view in the utility model with utilize anchor clamps two or more pedestals unit to be connected into schematic perspective view, vertical view and the cross section view of large tracts of land flowerpot.By Fig. 3~6 as can be known, the restriction of size is arranged based on manufacturing machine, so the utility model can only design limited flowerpot quantity, yet when decorative cover or roof area, only can't cover comprehensively and finish with two or more flowerpots in the utility model, therefore, the utility model also comprises a kind of exclusive anchor clamps 3, as shown in Figure 3, anchor clamps are the H font, the right and left is respectively offered slot hole 30, utilizes that two slot holes 30 are linked on the breach 111 of flowerpot 11 about it, make the utility model can be easily continuously and be linked to be the area size of needs.Because the utility model mode of being formed in one is produced, so when two or more pedestals 1 are linked together, each flowerpot 11 on the pedestal 1 and groove 12 all can marshalling also accurately be docking together, all flowers energy marshallings and all absorbent materials 2 on the pedestal can reciprocally be linked together, but still can reach function with self water feeding.In addition, because the corner of each flowerpot 11 of the present utility model is arc chord angle 112, therefore when two or more pedestals 1 link together, the edge of two flowerpots of its fillet just can form small holes 4, by these small holes 4, make under large-area laying flowerpot situation, the flowerpot in the utility model about in the of 11 air still can produce convection action by these small holes 4, can regulate the humidity in soil in each flowerpot 11 automatically.The hollow permeability cell 5 of also can pegging graft on the above-mentioned small holes 4 as shown in Figure 7, borrows hollow permeability cell 5 that the position of small holes 4 is improved, and prevents blocked possibility to reach.
Shown in Fig. 8~9, be another kind of example structure schematic perspective view of the present utility model and generalized section.By Fig. 8~9 as can be known, water storage in the utility model and the groove 12 that absorbent material is used is set, also can be designed to free-standing aqua storage tank 13, being that each aqua storage tank 13 is independent respectively is provided with and nothing connection each other, and all offer the breach 130 of appropriate depth in each upper end, aqua storage tank 13 contiguous flowerpots, 11 limits, making between the flowerpot 11 of each aqua storage tank 13 and adjacent side has at least a breach 130 to communicate, by these breach 130 aqua storage tank 13 is communicated with flowerpot 11, make absorbent materials 2 in the aqua storage tank 13 can water be passed in the soil in the flowerpot 11 via these breach 130, reach the purpose of self water feeding.When the hypervolia in the soil in the flowerpot 11, can utilize the osculum 110 on flowerpot 11 bottom surfaces that too much water is discharged outside the flowerpot 11, make the soil in the flowerpot 11 can obtain suitable humidity, reach purpose with moisture in the interior soil of automatic adjusting flowerpot.
To sum up discuss, but the utlity model has self water feeding and regulate the flowerpot structure of moisture function in the soil, it is mainly combined by integrated pedestal and absorbent material, wherein the pedestal bottom surface divides into two or more socles, be provided with two or more flowerpots and two or more vertical and horizontal groove above the socle, each flowerpot can both be surrounded by vertical and horizontal groove, utilize vertical and horizontal groove to come water storage and absorbent material is set, utilize the pore principle of absorbent material the breach of the water yield via each flowerpot upper end can be passed in the soil, reach the purpose of self water feeding, when hypervolia, then can be by the osculum on each flowerpot inner bottom surface, the unnecessary water yield is discharged outside the flowerpot, reach and have the effect that to regulate soil moisture in the flowerpot.In addition, when large tracts of land is laid the utility model, can by the corner of each pedestal of the present utility model arc chord angle then, make the connection center of four pedestals form hole, by these holes, though make large-area laying the utility model, but still can make the cross-ventilation of all flowerpot top and bottom smooth and easy, still can reach and have the effect that to regulate soil moisture in the flowerpot.Therefore, the utility model can not only stop to commonly use the disappearance of flowerpot fully, simultaneously also can be because of the one-body molded manufacturing cost that effectively reduces.
Though the utility model discloses as above with preferred embodiment; yet it is not in order to limit the utility model; any technical staff who is familiar with this field; the utility model is changed and revises not breaking away under spirit of the present utility model and the principle, all should be encompassed in the protection domain of the present utility model.
Claims (5)
1. but one kind has self water feeding and regulates the flowerpot structure of moisture function in the soil, it is characterized in that it is mainly combined by pedestal and absorbent material, and the manufacture of wherein said pedestal is formed in one; The bottom surface of described pedestal has two or more socles that can support whole pedestal, on the end face of described pedestal, be provided with two or more flowerpots and two or more as water storage with the groove that described absorbent material is used is set, all surrounded around described each flowerpot by described vertical and horizontal ditch mortise, on the bottom surface of described each flowerpot, offer several osculums, offer breach in the upper end of every sidewalls of described flowerpot; It is interior and concordant with the last ora terminalis of described flowerpot that described absorbent material is arranged on described groove.
2. but as claimed in claim 1 have self water feeding and regulate the flowerpot structure of moisture function in the soil, it is characterized in that, it also includes anchor clamps, each corner of described pedestal is arc chord angle, when utilizing described anchor clamps that two or more pedestals are linked together, the center of its connection of arc chord angle of described each pedestal is formed with small holes.
3. but as claimed in claim 2 have self water feeding and regulate the flowerpot structure of moisture function in the soil, it is characterized in that described anchor clamps are the H font, and the right and left of described anchor clamps respectively offers the slot hole on the breach that can be linked in described flowerpot.
4. but as claimed in claim 2 have self water feeding and regulate the flowerpot structure of moisture function in the soil, it is characterized in that, is plugged with the hollow permeability cell that can avoid small holes blocked on the described small holes.
5. but one kind has self water feeding and regulates the flowerpot structure of moisture function in the soil, it is characterized in that it is mainly combined by pedestal and absorbent material, and the processing procedure mode of wherein said pedestal is formed in one; The bottom surface of described pedestal has two or more socles that can support whole pedestal, on the end face of described pedestal, be provided with two or more flowerpots and two or more as water storage with the aqua storage tank that described absorbent material is used is set, described each aqua storage tank independently is provided with respectively and does not have each other and connects, all offer the breach of appropriate depth in the upper end on the contiguous described flowerpot of described each aqua storage tank limit, have at least a described breach to communicate between the described flowerpot of described each aqua storage tank and adjacent side.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2009202980865U CN201612057U (en) | 2009-12-28 | 2009-12-28 | Flowerpot structure with functions of automatically supplying water and adjusting moisture in soil |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2009202980865U CN201612057U (en) | 2009-12-28 | 2009-12-28 | Flowerpot structure with functions of automatically supplying water and adjusting moisture in soil |
Publications (1)
Publication Number | Publication Date |
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CN201612057U true CN201612057U (en) | 2010-10-27 |
Family
ID=42998431
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN2009202980865U Expired - Fee Related CN201612057U (en) | 2009-12-28 | 2009-12-28 | Flowerpot structure with functions of automatically supplying water and adjusting moisture in soil |
Country Status (1)
Country | Link |
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CN (1) | CN201612057U (en) |
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2009
- 2009-12-28 CN CN2009202980865U patent/CN201612057U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20101027 Termination date: 20141228 |
|
EXPY | Termination of patent right or utility model |