CN206866144U - Water-saving moisture-preserving flower pot - Google Patents
Water-saving moisture-preserving flower pot Download PDFInfo
- Publication number
- CN206866144U CN206866144U CN201720510291.8U CN201720510291U CN206866144U CN 206866144 U CN206866144 U CN 206866144U CN 201720510291 U CN201720510291 U CN 201720510291U CN 206866144 U CN206866144 U CN 206866144U
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- Prior art keywords
- internal layer
- layer
- sponge
- water
- moisture
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Abstract
The utility model discloses a kind of water-saving moisture-preserving flower pot, including it is in the internal layer and outer layer of hollow structure, and internal layer, in lower small vertebra shape structure upper greatly, its upper end is open, and the outer surface of internal layer is provided with Unidirectional water permeable film;Gap is left between the outside of internal layer and the inner side of outer layer, sponge is filled with the gap, the inner side of sponge contacts with Unidirectional water permeable film, and sponge internal moisture can penetrate into internal layer through Unidirectional water permeable film;Dirt bed and sand stone layer are sequentially provided with internal layer from top to bottom, permeable hole is offered on the bottom wall of internal layer, the lower end of sponge contacts with the bottom wall of outer layer.Using above structure, moisture is stored by the water containing chamber of sponge and bottom, supplied water again by sponge by the way that Unidirectional water permeable film is slowly lasting inside the inner layer of side, watering frequency is reduced, meets potted plant long-distance transport demand, humidity and fresh and alive degree are kept in transportation, reduce the damage rate of potted plant transportation, contribute to the development of plant fibrous root simultaneously, structure is novel, has very big economic value.
Description
Technical field
The utility model belongs to flowerpot technical field, and in particular to a kind of water-saving moisture-preserving flower pot.
Background technology
Existing general flowerpot needs maintenance personnel often to water, and when the personnel of maintenance can not water, and plant is then very
Easily because water shortage is dead, it is unfavorable for the normal growth of plant, and often watering, water are not easy to grasp, hypervolia also can
Cause the drowned situation of root system of plant, while often watering, because water is applied directly to the soil on upper strata, it is easy to make soil plate
Knot, special to being for for fibrous root system plants, soil is hardened can seriously to hinder its speed of growth, this needs maintenance personnel frequent
Loosen the soil, add workload, be unfavorable for realizing quick cultivation.In addition, it is potted plant in transportation, often because transport away from
From farther out, condition is inconvenient, and can not carry out watering moisturizing to potted plant, so as to add the probability of losing of transportation, wastes
Cost input.
Utility model content
To solve above technical problem, two working of plastics progress to mutual clamping is multidirectional spacing, controls segment difference, obtains good
Good assembling outward appearance, the utility model provide a kind of water-saving moisture-preserving flower pot.
To achieve the above object, technical solutions of the utility model are as follows:
A kind of water-saving moisture-preserving flower pot, it is characterized by:Internal layer and outer layer including being in hollow structure, and internal layer is in lower big
Upper small vertebra shape structure, its upper end is open, and the outer surface of internal layer is provided with Unidirectional water permeable film;
Leave gap between the outside of the internal layer and the inner side of outer layer, be filled with sponge in the gap, sponge it is interior
Side contacts with Unidirectional water permeable film, and sponge internal moisture can penetrate into internal layer through Unidirectional water permeable film;
Dirt bed and sand stone layer are sequentially provided with the internal layer from top to bottom, permeable hole is offered on the bottom wall of internal layer, sea
Continuous lower end contacts with the bottom wall of outer layer.
Using above scheme, water suction water storage is carried out by the spongy layer for being arranged on centre, spongy layer connects with Unidirectional water permeable film
Touch, moisture corrodes diagonally downward under gravity, and is penetrated into by Unidirectional water permeable film inside internal layer, so as to relative
Inner layer slowly feeds moisture in longer time, meets potted plant long-distance transport demand, also the moment can be in transportation
Plant supply moisture in flowerpot, keeps humidity, so as to reduce the damage rate of potted plant transportation, and because sponge is arranged in
The outer circumferential of layer, according to the hydrotaxis of root system, then contribute to the Quick extension of fibrous root, can preferably spread and give birth in dirt bed
It is long.
As preferred:The lateral wall of the internal layer is provided with least one annular protrusion to stretch out, and sponge is provided with
The groove being adapted with the annular protrusion, the annular protrusion are embedded in groove.It is convenient to be set with sponge using above structure
Another rise loads in outer layer after on to the lateral wall of internal layer, and can prevent sponge absorb water in gap deform after tilt down cunning
Shifting is stacked into one piece.
As preferred:It is bent upwards on the outside of the annular protrusion.Using said structure, make the moisture of sponge memory storage more
Easily shifted to inner side, contacted with Unidirectional water permeable film and immerse internal layer.
As preferred:The bottom wall of the internal layer is provided with support frame, and internal layer is supported on the bottom wall of outer layer by support frame, interior
Water containing chamber is formed between the bottom wall of layer and the bottom wall of outer layer.Using above structure, a water containing chamber is formed in bottom, is further increased
The water storage function of flowerpot is added, without making the root system in flowerpot be directly immersed in water, sponge can continue from water containing chamber
In up absorb moisture and slowly supplied water from the side of internal layer to its inside.
As preferred:Internal layer upper end outer rim has the watering portion that radially stretches out, the outside in watering portion with
Outer layer abuts, and the middle part in watering portion offers through hole to lower recess.Using above structure, directly at the watering portion of depression
Watering, the gap of internal layer and outer layer is flowed into by through hole, and sponge is fully absorbed moisture and stored more waters, is kept away simultaneously
Exempt from that water directly is poured onto into dirt bed, cause soil hardened phenomenon to occur, reduction loosens the soil frequency again without prejudice to its normal growth, pours
Water portion can also realize to the open-mouth of upper gap on internal layer and outer layer and block, and reduce moisture evaporation and be lost in.
As preferred:The outer rim in the watering portion is circumferentially symmetrically provided with least two bending parts outwards turned down along it,
The lateral wall of the outer layer is provided with the projection being adapted with bending part, after the internal layer is put into outer layer, can pass through bending part
Cooperate and fix with projection.Using above structure, after internal layer first being put into outer layer inside, during placement bending part with it is raised
Mutual dislocation, after putting well, internal layer is rotated, projection is embedded just below in bending part, can also so as to facilitate the integral shift of flowerpot
Internal layer is easily taken out to the water storage situation of observation bottom and sponge, can more reasonably be conserved.
Compared with prior art, the beneficial effects of the utility model are:
Using water-saving moisture-preserving flower pot provided by the utility model, moisture is stored by the water containing chamber of sponge and bottom, then by
Sponge is supplied water by the way that Unidirectional water permeable film is slowly lasting inside the inner layer of side, reduces watering frequency, is met potted plant long-distance
Transportation demand, also the moment can be that the plant in flowerpot supplies moisture in transportation, humidity be kept, so as to reduce potted plant transport
The damage rate of process, while contribute to the development of plant fibrous root, reasonably optimizing is cultivated, and structure is novel, has great practical value.
Brief description of the drawings
Fig. 1 is structural representation of the present utility model;
Fig. 2 is the top view of embodiment illustrated in fig. 1.
Embodiment
The utility model is described in further detail with accompanying drawing with reference to embodiments.
With reference to the water-saving moisture-preserving flower pot shown in figure 1 and Fig. 2, main internal layer 1 and outer layer 2 including being in hollow structure, two
The upper surface of person flushes, and it is just lower big under small cone-shaped structure, top is open, internal layer 1, is opened by the top of outer layer 2
Be put at mouthful inside outer layer 2, be sequentially provided with dirt bed 10 and sand stone layer 11 in internal layer 1 from top to bottom, the madial wall of outer layer 2 with it is interior
There is certain interval between the lateral wall of layer 1, sponge 4 is filled with the gap.
The outer circumferential wall of internal layer 1 is permeable, the seepy material of hard can be used to be made, can also use impermeable material
Webbed permeable structure is made, its outer surface is pasted with Unidirectional water permeable film 3, and the permeable direction of Unidirectional water permeable film 3 is by extroversion
It is interior, i.e., moisture can only the outside of its side wall permeate inwardly, three convex annulars to stretch out are provided with its lateral wall from top to bottom
12 are played, annular protrusion 12 is in globoidal structure, and its outer end is bent upwards, and the inner side of sponge 4 is provided with what is be adapted with annular protrusion 12
The groove 40 of annular, then sponge 4 cover and be attached on the lateral wall of internal layer 1 by Qian He of groove 40 and annular protrusion 12, sponge 4
Inner side be close to inside Unidirectional water permeable film 3.
The bottom symmetrical of internal layer 1 is provided with four support frames 13, can be stably placed in outer layer 2 by support frame 13
Portion, and a water containing chamber 7 is formed between the bottom wall of the bottom wall of internal layer 1 and outer layer 2, the bottom wall of internal layer 1 is provided with permeable hole, interior
The unnecessary moisture in the inside of layer 1, which can be flowed into water containing chamber 7, temporarily to be stored.The bottom of sponge 4 extends downwardly, and is contacted with the bottom wall of outer layer 2,
As long as so there is excessive moisture in water containing chamber 7, sponge 4 then can therefrom draw, upwards migration, then by Unidirectional water permeable film 3 from
The inside of side inner layer 1 is lasting to supply water.
The upper end outer rim of internal layer 1 has the watering portion 5 radially to stretch out, and watering portion 5 as shown in Figure 2 is in when overlooking
Disc structure, its outside abut with outer layer 2, just cover in the gap between internal layer 1 and outer layer 2, effectively reduce between being in
Gap internal force sponge stores the drain evaporation of moisture;
The centre position in watering portion 5 offers through hole 50 to lower recess, and in the lowest part of depression, so toward watering portion 5
During interior injection water, for moisture then by the relatively uniform gap between internal layer 1 and outer layer 2 of through hole 50, sponge 4 then can be with
Moisture is fully absorbed, for absorbing storage moisture from the bottom up compared to sponge 4, such a watering mode, sponge can be enable to store
More moisture, the water containing chamber 7 that unnecessary moisture then flows into bottom store.
Watered by watering portion 5, also avoid directly watering to the top of dirt bed 10, and the situation for causing soil to lump, have
Effect reduces frequency of loosening the soil.
The periphery in watering portion 5 is symmetrically provided with four bending parts 6, as shown in figure 1,6 curved structure of bending part, to
Involute after outer extension to turn down upward, outer layer 2 is provided with four projections 20 being adapted with bending part 6, raised 20 also curved knots
Structure, turned down down after stretching out, after internal layer 1 is put into outer layer 2, projection 20 can be embedded in bending part 6, carry out axial limit
Position, makes internal layer 1 and outer layer 2 then be integrally formed, conveniently moves.
Operation principle of the present utility model is as follows:
Unidirectional water permeable film 3 and sponge 4 are covered successively after being attached on internal layer 1, internal layer 1 is put from the open top of outer layer 2
Enter, bending part 6 and raised 20 position mutual dislocations are ensured during placement, internal layer 1 is rotated after being put into makes bending part 6 block with projection 20
Close, that is, realize the connection of internal layer 1 and outer layer 2, when shifting flowerpot is up lifted by bending part 6, can be carried together with outer layer 2;
When needing watering, directly toward water filling in watering portion 5, between water is flowed between internal layer 1 and outer layer 2 at through hole 50
In gap, sponge 4 obtains fully water suction storage, and excessive moisture, which then enters in water containing chamber 7, to be stored, and avoiding directly watering may cause
The hardened situation of soil;
After stopping watering, the moisture inside sponge 4 then can continue the inside of inner layer 1 from side by Unidirectional water permeable film 3 and supply
Water, and sponge 4 can also be supplied in water suction out of water containing chamber 7, can effectively extend watering interval time, meanwhile, take lateral infiltration
When way of supplying water, the development of plant fibrous root can be effectively facilitated, and need to add growth medicament, it can also be added at watering portion 5,
Medicament is avoided to burn the tender root system in plant top.
Finally it should be noted that foregoing description is only preferred embodiment of the present utility model, the common skill of this area
Art personnel on the premise of without prejudice to the utility model aims and claim, can make under enlightenment of the present utility model
Expression, such conversion are each fallen within the scope of protection of the utility model as multiple types.
Claims (6)
- A kind of 1. water-saving moisture-preserving flower pot, it is characterised in that:Internal layer (1) and outer layer (2) including being in hollow structure, and internal layer (1) in lower small vertebra shape structure upper greatly, its upper end is open, and the outer surface of internal layer (1) is provided with Unidirectional water permeable film (3);Gap is left between the outside of the internal layer (1) and the inner side of outer layer (2), sponge (4), sponge are filled with the gap (4) inner side contacts with Unidirectional water permeable film (3), and sponge (4) internal moisture can penetrate into internal layer (1) through Unidirectional water permeable film (3);Dirt bed (10) and sand stone layer (11) are sequentially provided with from top to bottom in the internal layer (1), are offered on the bottom wall of internal layer (1) Permeable hole, the lower end of sponge (4) contact with the bottom wall of outer layer (2).
- 2. water-saving moisture-preserving flower pot according to claim 1, it is characterised in that:The lateral wall of the internal layer (1) is provided with extremely A few annular protrusion (12) to stretch out, sponge (4) are provided with the groove (40) being adapted with the annular protrusion (12), In the embedded groove (40) of the annular protrusion (12).
- 3. water-saving moisture-preserving flower pot according to claim 2, it is characterised in that:It is bent up on the outside of the annular protrusion (12) It is bent.
- 4. water-saving moisture-preserving flower pot as claimed in any of claims 1 to 3, it is characterised in that:The bottom of the internal layer (1) Wall is provided with support frame (13), and internal layer (1) is supported on the bottom wall of outer layer (2) by support frame (13), the bottom wall of internal layer (1) with it is outer Water containing chamber (7) is formed between the bottom wall of layer (2).
- 5. water-saving moisture-preserving flower pot according to claim 1, it is characterised in that:Internal layer (1) upper end outer rim has along it The watering portion (5) to extend radially outwardly, the outside of watering portion (5) abut with outer layer (2), the middle part of watering portion (5) to lower recess, And offer through hole (50).
- 6. water-saving moisture-preserving flower pot according to claim 5, it is characterised in that:The outer rim of the watering portion (5) is along its circumference Symmetrical to be provided with least two bending parts outwards turned down (6), the lateral wall of the outer layer (2) is provided with and bending part (6) phase The projection (20) of adaptation, after the internal layer (1) is put into outer layer (2), it can be cooperated admittedly by bending part (6) and raised (20) It is fixed.
Priority Applications (1)
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CN201720510291.8U CN206866144U (en) | 2017-05-09 | 2017-05-09 | Water-saving moisture-preserving flower pot |
Applications Claiming Priority (1)
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CN201720510291.8U CN206866144U (en) | 2017-05-09 | 2017-05-09 | Water-saving moisture-preserving flower pot |
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CN206866144U true CN206866144U (en) | 2018-01-12 |
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CN201720510291.8U Expired - Fee Related CN206866144U (en) | 2017-05-09 | 2017-05-09 | Water-saving moisture-preserving flower pot |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109006022A (en) * | 2018-07-11 | 2018-12-18 | 滕庆阳 | A kind of flowerpot and its management system and the greenhouse plants management system based on big data |
-
2017
- 2017-05-09 CN CN201720510291.8U patent/CN206866144U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109006022A (en) * | 2018-07-11 | 2018-12-18 | 滕庆阳 | A kind of flowerpot and its management system and the greenhouse plants management system based on big data |
CN109006022B (en) * | 2018-07-11 | 2021-06-15 | 滕庆阳 | Flowerpot and management system thereof and big-arch shelter plant management system based on big data |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180112 Termination date: 20190509 |