CN2655631Y - Water-storage water-saving ventilating flowerpot - Google Patents

Abstract

The utility model relates to a water storage water saving typed ventilate flower pot in order to solve the problem that the prior flower pot doesn't have the water storage function and wastes water relatively. The scheme is that the flower pot inner wall at a first height from the flower pot bottom to the flower pot bottom is equipped with a plurality of convex platforms with a certain width, the convex platforms extends a certain distance from the flower pot inner wall to the center horizontally, the bottom is an opening structure, the side wall of the convex platforms is at a second height to the flower pot bottom is equipped with a ventilate water exhaustion hole, the bottom end of the flower pot side walls is equipped with a flower pot opening, the convex platforms can also be equipped with separating plates with water leaking ventilate holes to divide the flower pot inner chamber to a lower water storage chamber and an upper soil base chamber, also a multi-hole material water transport layer can be added, and extending plates extend to the water storage chamber to perform the function of transporting water to the soil base layer. The water leaking ventilate on the separating plates, ventilate water exhaustion holes on the convex platform side walls and the pot wall opening on the flower pot side walls are mutually communicated, and the whole flower pot has fine water storage, water saving and ventilation property.

Description

The water-saving permeable flower pot of a kind of water storage

Technical field

The utility model relates to the flowerpot that is used to afforest gardening, more particularly, relates to the water-saving permeable flower pot of a kind of water storage.

Background technology

Raising day by day along with people's living standard, as beautifying the environment, flowers that mould a person's temperament and ornamental plants more and more are subjected to liking of people, not only enter family in large quantities and beautify the room, and be placed in the indoor and outdoors of various public places and commercial facility widely, for example hotel, megastore, Entertainment Plaza, office building, park, the both sides of road and bridge etc.

At present the flowerpot that uses is continued to use the structure that forms in history so far always, and its osculum causes the water overwhelming majority of watering flowers to flow out flowerpots in the central authorities or the position, base angle of flowerpot bottom, and water and fertilizers for potted flowers are wasted; When high-rise resident family watered flowers, excessive water can be discharged by flowerpot bottom discharge hole, flows to the balcony of following resident family.Present solution is to place drip tray below flowerpot again, though situation is made moderate progress, drip tray can influence the attractive in appearance and clean and tidy of flowerpot, and the water that flows into drip tray can natural evaporation be lost in the air and be wasted, and is very unfortunate.

China is one of poor-water country in the world, it is reported most of big and medium-sized cities of more than 600 urban water shortage, particularly northern area as city serious water shortages such as Beijing, Tianjin, Dalian, Zhengzhou, Taiyuan, to have begun to have influence on industrial production and people's lives.And the southern big and medium-sized cities of part, as Shenzhen and Guangzhou, Dongguan and other places, the also problem of ubiquity water quality lack of water, its reason are that most of river in the region within the jurisdiction and lake are by severe contamination and can't be as the water source water.One side is the general lack of water in a lot of cities, but is wasting precious water resource on the other hand on this class life minor matter of watering flowers, and at this situation, the development of new water-saving flowerpot just has very big environment protection significance and social effect.

The utility model content

At the above-mentioned defective of prior art, the utility model will solve the problem that existing flowerpot does not have the water storage function and relatively wastes water, and provides a kind of water storage, water saving and permeability good flowerpot.

The technical scheme that its technical problem that solves the utility model adopts is: construct the water-saving permeable flower pot of a kind of water storage, wherein, on the flowerpot inwall of first height from the flowerpot bottom surface to distance flowerpot bottom surface, be provided with two or more boss with certain width, described boss stretches out certain distance from the flowerpot inwall to central horizontal, and the bottom of boss is a hatch frame; Highly locate apart from flowerpot bottom surface second on the sidewall of one or more boss therein, be provided with at least one ventilative osculum.In the preferred version, described second highly is slightly less than described first height.

In the utility model, also be provided with the tub wall breach in the bottom of described flowerpot sidewall, its position is located at the flowerpot sidewall bottom of wherein one or more boss correspondences.

In flowerpot of the present utility model, can directly in flowerpot, lay bulky grain matrix, its applied thickness is formed for supporting the bulky grain hypothallus of soil matrix a little more than the height of described boss.Also can place in flowerpot and be used to the porous material piece that supports soil matrix and have water sorption, the profile of described porous material piece cooperates with the inner-cavity structure of described flowerpot bottom, and its thickness is slightly larger than the height of described boss.

In flowerpot of the present utility model, also can on boss, place the dividing plate that is provided with at least one infiltration air-vent, the appearance and size of described dividing plate cooperates with flowerpot inner chamber a little more than described boss place, and the flowerpot inner chamber is divided into the soil matrix chamber on top and the water storage cavity of bottom.In addition, also can set up porous material water delivery layer; This moment, the edge at described dividing plate was provided with a water delivery breach at least; The edge of described porous material water delivery layer is provided with and the corresponding Extendible flake of described water delivery breach; Described Extendible flake inserts downwards from the water delivery breach of correspondence, and in the water storage cavity below the inwall of flowerpot reaches dividing plate downwards, can the moisture of water storage cavity be transported to the soil matrix layer on described dividing plate top by capillary theory.

Wherein, the main part of described porous material water delivery layer can be tiled in the upper surface of described dividing plate; Also can extend up to the 3rd height along the inwall of described flowerpot apart from the flowerpot bottom surface, on described flowerpot inwall, highly locate also to be provided with clips this moment apart from flowerpot bottom surface the 3rd, the main part of described porous material water delivery layer is after the inwall of described flowerpot extends up to this clips position, and the hoop that is fixed blocks to prevent that it from coming off or be shifted.In the preferred version, described the 3rd height is about 1/2 to 3/4 of whole flowerpot height greater than described first height.

Compare with existing flowerpot, flowerpot of the present utility model has the following advantages:

(1) because ventilative osculum is highly located in second of distance flowerpot bottom surface, so formed water storage cavity, can be used for storing the water that oozes out soil after watering, thereby the problem that the water of soil is wasted is oozed out in solution in the flowerpot bottom;

(2) bottom of flowerpot inner chamber can communicate with extraneous air by the tub wall breach of the ventilative osculum on the boss, sidewall bottom, thereby can improve the gas permeability of flowerpot, promotes the flower plant growth;

(3) ventilative osculum is opened on the sidewall of boss, can't see from the outside, has avoided perforate on the flowerpot sidewall, and the tub wall breach is opened in the lower end of flowerpot sidewall, and this design can keep the flowerpot outward appearance consistent with existing common flowerpot outward appearance;

(4) behind the employing porous material water delivery layer, the water in the water storage cavity can be carried back the soil matrix layer once more,, the water that stores in the water storage cavity be utilized once more, thereby can significantly reduce the number of times that waters, reach the purpose of water saving for plant provides lasting, stable moisture;

(5) grasp the suitable water yield of watering and make water not flow out flowerpot, so just can save influences the attractive in appearance and clean and tidy water-accepting basin of flowerpot;

(6) whole flowerpot simple in structure, be easy to manufacturing in enormous quantities, and using method is identical, very simple and convenient with existing common flowerpot.

Description of drawings

The utility model is described in further detail below in conjunction with drawings and Examples, in the accompanying drawing:

Fig. 1 is the front view of flowerpot in preferred embodiment of the utility model;

Fig. 2 is the A-A cutaway view of flowerpot shown in Fig. 1;

Fig. 3 is the vertical view of Fig. 1;

Fig. 4 is the schematic diagram behind the porous material piece of packing in flowerpot shown in Figure 2;

Fig. 5 is the schematic diagram that installs additional in flowerpot shown in Figure 2 behind dividing plate and the porous material water delivery layer;

Fig. 6 is the vertical view of dividing plate shown in Fig. 5;

Fig. 7 is the vertical view of the water delivery of porous material shown in Fig. 5 layer;

Fig. 8 installs be laid in schematic diagram on the flowerpot inwall of dividing plate and porous material water delivery layer additional in flowerpot shown in Figure 2.

Embodiment

In a preferred embodiment of the present utility model, the structure of flowerpot such as Fig. 1, Fig. 2 and shown in Figure 3.This flowerpot is a drum-shaped structure, and its diameter from top to bottom reduces gradually.

As can be seen from the figure, from the flowerpot inwall of flowerpot bottom surface 2 to distance flowerpot bottom surface first height (slightly 1/5 of the flowerpot total height), be provided with three equally distributed boss 3, these three boss stretch out certain distance from the flowerpot inwall to central horizontal, and the bottom of boss is a hatch frame.During concrete enforcement, 2 bigger boss can be set, also 4 or more boss can be set evenly.

On each boss, be provided with two ventilative osculums 10.The extreme lower position of ventilative osculum 10 and the difference in height between the flowerpot bottom surface 2 (i.e. second height) can be 3-12cm, specifically can adjust according to the size of flowerpot.After taking this structure, a certain amount of water can be stored in flowerpot bottom, and when the highest water storage face in the flowerpot can be to its lowest position of ventilative osculum 10, superfluous water can be by outside the ventilative osculum 10 overflows discharge basin body.

The quantity of the ventilative osculum 10 on each boss can be 1,2,3 or more, also can only on the part boss ventilative osculum be set therein.Ventilative osculum can be vertical perforate or horizontal bore, shown in Figure 2ly is vertical perforate, is characterized in reducing to greatest extent the water that seepage gets off and directly spills by the aperture, so vertical perforate is a preferred version.Ventilative osculum 10 is vertical bar shape hole preferably.Because the ventilative osculum 10 of this flowerpot has adopted the hidden design, promptly ventilative osculum is located on the boss sidewall, utilizes the basin body of flowerpot that it is hidden, and can't see outside, and it can keep the flowerpot outward appearance consistent with existing common flowerpot outward appearance.From Fig. 1 and Fig. 2, as can be seen, be provided with tub wall breach 5 in the bottom of flowerpot sidewall 1 corresponding to ventilative osculum 10.This structure makes the bottom of flowerpot inner chamber to communicate with extraneous air by ventilative osculum 10 and tub wall breach 5, therefore, ventilative osculum 10 and tub wall breach 5 are except being used to discharge the unnecessary water, also can provide good air duct, to improve the gas permeability of flowerpot, promote the flower plant growth.

When using this flowerpot, can directly lay bulky grain matrix in the flowerpot bottom, for example haydite or rubble grain, thus forming the bulky grain hypothallus, its applied thickness slightly exceeds boss 3, the osculum 10 of breathing freely can be covered.Then soil matrix directly is laid on the bulky grain hypothallus, can in soil matrix, plants flower plant.In this simple and easy occupation mode; the water that oozes out soil matrix when watering flowers can be stored in the slit of bulky grain matrix; and can the water bottom the flowerpot be transported in the soil matrix layer by the capillarity of bulky grain matrix and soil matrix, play the effect of wetting soil matrix layer.As during the dilutional hyponatremia that waters, unnecessary water can be discharged by ventilative osculum 10 overflows.

As shown in Figure 4, also the porous material piece 11 that the cavity shape with the flowerpot bottom can be cooperated directly is placed in the flowerpot, adopts a monoblock water-absorbing sponge in the present embodiment, and its thickness slightly exceeds boss 3, the osculum 10 of breathing freely can be covered.Then, soil matrix directly is laid on the water-absorbing sponge 11, can in soil matrix, plants flower plant.In this simple and easy occupation mode, the water that oozes out the soil matrix layer when watering flowers can be stored in the water-absorbing sponge 11, and can the water bottom the flowerpot be transported in the soil matrix layer by the capillarity of water-absorbing sponge and soil matrix, play the effect of wetting soil matrix layer.As during the dilutional hyponatremia that waters, unnecessary water can be discharged by ventilative osculum 10 overflows.

The characteristics of above-mentioned two kinds of occupation modes are simple in structure, but porous material piece 11 or bulky grain matrix can take the part water space of flowerpot, cause its moisture storage capacity to reduce, and the method for solution is that the degree of depth that suitably increases the water storage part enlarges water space.

Another embodiment of the present utility model as can be seen from the figure, is provided with dividing plate 8 as shown in Figure 5 in the flowerpot, it is divided into the water storage cavity of bottom and the soil matrix chamber on top with flowerpot; Also be equipped with porous material water delivery layer 71 in baffle surface, 3 of boss provide a supporting role for dividing plate 8.

The structure of dividing plate as shown in Figure 6, its appearance and size cooperates with flowerpot inner chamber a little more than the boss place, and its edge is erected on the boss, is provided with several infiltration air-vents 9 on dividing plate, water storage cavity can be communicated with the soil matrix chamber, have infiltration and ventilative two big main effects.Because dividing plate 8 is placed on the boss a little more than ventilative osculum 10 overflow positions, thus can be between the lower surface of the water surface of water storage cavity and dividing plate 8 thin layer of air of formation.Wherein, infiltration air-vent 9, thin layer of air, ventilative osculum 10 and tub wall breach 5 are communicated with successively, and with the flowerpot exterior, make the soil matrix layer in the flowerpot seem " suspension " on thin layer of air, thereby can strengthen the gas permeability of soil matrix in the flowerpot greatly, promote plant growing.

As can be seen from Figure 6, be provided with three water delivery breach 81 at the edge of dividing plate 8, certainly, also can only establish one or two water delivery breach, perhaps establish three above water delivery breach; The structure of the porous material water delivery layer 71 that cooperates with this dividing plate 8 as shown in Figure 7; Its outer rim is provided with and water delivery breach 81 Extendible flake 72 one to one, they insert downwards from the water delivery breach respectively, and reach in the water storage cavity downwards along the inwall of flowerpot, can the moisture of water storage cavity be transported to described dividing plate top by capillary theory, play the effect of wetting soil matrix, make soil matrix remain suitable wetting state, but can not make soil matrix cross wet and cause flower plant to rot root.Simultaneously, porous material water delivery layer 71 also can play the effect of filter course, and empty G﹠W can see through, and the soil matrix particle is then stopped by it, can prevent that the soil matrix particle from falling into water storage cavity and reducing water space.During concrete the use, soil matrix directly can be laid on the porous material water delivery layer 71, plant flower plant then.Porous material water delivery layer 71 can adopt sponge, fabric etc. to make, and its thickness can be 3-10mm, and is big or small and different according to flowerpot.

Another embodiment of the present utility model as shown in Figure 8, the porous material water delivery layer 73 here is not the upper surface that is layered on dividing plate, but extends up to certain altitude along the inwall of flowerpot.Porous material water delivery layer 73 can be a sheet independently, it also can be the barrel shaped structure of one, adopted the barrel shaped structure that cooperates with the flowerpot inwall in the present embodiment, its lower end be provided with Fig. 7 in Extendible flake 72 similar Extendible flakes 74, they insert downwards from water delivery breach 81 respectively, and reach water storage cavity downwards along the inwall of flowerpot.

The centre of this porous material water delivery layer 73 and bottom can stick on the inner surface of flowerpot with marine glue, prevent its displacement or come off.In order further to prevent its displacement or to come off; also located to install the clips 6 that shields at 3/4 height (i.e. the 3rd height) of flowerpot; this clips 6 is bonded on the flowerpot inner surface by marine glue, can block porous material water delivery layer 73 upper end, prevents that it from coming off or be shifted.

During concrete the use, can on dividing plate 8, lay several tiles etc. earlier, the infiltration air-vent 9 on the dividing plate 8 is covered to prevent that soil matrix from falling in the water storage cavity; Again soil matrix is inserted in the flowerpot, can in soil matrix, be planted flower plant.

Flowerpot of the present utility model is the product of the update of existing flowerpot, and the material of flowerpot body can be selected present common used material for use, as watt, pottery, porcelain, plastic cement etc.; Preferably adopt the flowerpot of plastic cement material, be characterized in that plastic cement is easy to moulding, be convenient to produce in enormous quantities, and low price.If suitably mix the plastic material of recycling, can also further reduce cost, have very big ecological, environmental protective meaning simultaneously again.

Dividing plate 8 wherein and clips 6 can adopt lightweights such as plastics, water-fast, rust corrosion, inexpensive material are not made; Porous material water delivery layer can be selected materials such as the sponge of good water absorption or fabric for use; The flowerpot shape can adopt different shapes such as circle at present commonly used, square, rectangle, polygon.

Wherein, the position of boss 3 and quantity can be determined according to the flowerpot size, can be symmetrical arranged 2, boss more than 3 or 3 as circular flowerpot, and square and rectangle flowerpot can be provided with 4 boss on the position at its four angles, for the square of larger volume and rectangle flowerpot or flower groove, the boss more than 4 can be set then.Because the gas permeability of normal soil is poor, the big agglomerate of formation is easy to harden, compost after the soil conditioner improvement or artificial soilless culture substrate are used in suggestion, the water conservation of such matrix, to protect fertilizer, draining, permeability good, and contain higher organic nutrient, can bring into play water conservation of the present utility model, water saving and ventilative characteristics to greatest extent.

When indoor or balcony use flowerpot of the present utility model, the user can be as using common flowerpot, whether the dried wet situation of soil matrix needs to water with decision in the basin by observing, watering the water yield does not have water to ooze out at the bottom of with basin to exceed, can make water not flow out flowerpot by attempting grasping the suitable water yield of watering several times, so just can save influences the attractive in appearance and clean and tidy water-accepting basin of flowerpot.Before going on business, if water big flood at the bottom of the basin slightly water ooze out, need not water in 20 days to 30 days even just can guarantee flower plant, can not dry up because of lack of water yet.

If flowerpot of the present utility model is used outdoor, viaduct both sides for example, the road both sides, the roof, terrace, square, places such as park, because flowerpot itself has the water storage function, as long as every month rainfall bigger about two, three times is arranged, flowerpot of the present utility model just can store the needed enough moisture of flower plant, can no longer need for a long time manually to water, thereby become " exempting from the type of watering " flowerpot, using water wisely greatly so on the one hand can alleviate simultaneously the maintenance work amount and the correlative charges expenditure of afforestation maintenance company again greatly, it is practical, as to have an ecological, environmental protective meaning flowerpot.

Claims (9)

1, the water-saving permeable flower pot of a kind of water storage, it is characterized in that, on the flowerpot inwall of first height from the flowerpot bottom surface to distance flowerpot bottom surface, be provided with two or more boss with certain width, described boss stretches out certain distance from the flowerpot inwall to central horizontal, and the bottom of boss is a hatch frame; Highly locate apart from flowerpot bottom surface second on the sidewall of one or more boss therein, be provided with at least one ventilative osculum.

2, the water-saving permeable flower pot of water storage according to claim 1 is characterized in that, the flowerpot sidewall bottom of one or more therein boss correspondences is provided with the tub wall breach.

3, the water-saving permeable flower pot of water storage according to claim 1 and 2 is characterized in that, also comprises the bulky grain matrix in the flowerpot that directly is laid in, and its applied thickness is formed for supporting the bulky grain hypothallus of soil matrix a little more than the height of described boss.

4, the water-saving permeable flower pot of water storage according to claim 1 and 2, it is characterized in that, also comprise and be placed in the described flowerpot, be used to the porous material piece that supports soil matrix and have water sorption, the profile of described porous material piece cooperates with the inner-cavity structure of described flowerpot bottom, and its thickness is slightly larger than the height of described boss.

5, the water-saving permeable flower pot of water storage according to claim 1 and 2, it is characterized in that, also comprise the dividing plate that is provided with at least one infiltration air-vent, the appearance and size of described dividing plate cooperates with flowerpot inner chamber a little more than described boss place, the edge of dividing plate is supported on the described boss, and the flowerpot inner chamber is divided into the soil matrix chamber on top and the water storage cavity of bottom.

6, the water-saving permeable flower pot of water storage according to claim 5 is characterized in that, also comprises porous material water delivery layer; Edge at described dividing plate is provided with a water delivery breach at least; The edge of described porous material water delivery layer is provided with and the corresponding Extendible flake of described water delivery breach; Described Extendible flake inserts downwards from the water delivery breach of correspondence, and in the water storage cavity below the inwall of flowerpot reaches dividing plate downwards, can the moisture of water storage cavity be transported to the soil matrix layer on described dividing plate top by capillary theory.

7, the water-saving permeable flower pot of water storage according to claim 6 is characterized in that, the main part of described porous material water delivery layer is tiled in the upper surface of described dividing plate.

8, the water-saving permeable flower pot of water storage according to claim 6 is characterized in that, the main part of described porous material water delivery layer extends up to apart from flowerpot bottom surface the 3rd along the inwall of described flowerpot and highly locates.

9, the water-saving permeable flower pot of water storage according to claim 8, it is characterized in that, on described flowerpot inwall, highly locate also to be provided with clips apart from flowerpot bottom surface the 3rd, the main part of described porous material water delivery layer is after the inwall of described flowerpot extends up to this clips position, and the hoop that is fixed blocks to prevent that it from coming off or be shifted.

Images