CN203181703U - Flowerpot water supplying device - Google Patents

Abstract

The utility model relates to a flowerpot water supplying device which is used for supplying water to flowerpots, wherein a drainage hole is formed in the bottom of each flowerpot. The flowerpot water supplying device comprises a water tank bottom, a water tank with an upward opening, core carriers and cone-shaped core carriers, wherein the water tank with the upward opening is provided with a water tank enclosing wall part which is formed from the full circumferential edge position of the water tank bottom in an erected mode, the lower ends of the core carriers are placed between the water tank bottom and the bottoms of the flowerpots, the lower ends of the core carriers are exposed towards the interiors of the flowerpots through the drainage holes, and the cone-shaped core carriers are made of water absorbing materials and assembled on the outer surfaces of the core carriers to be supported by the core carriers. According to the flowerpot water supplying device, quantity of water absorbed by soil in the flowerpots can be increased, the soil in the flowerpots is prevented from flowing out from the drainage holes, the primary assembling states of the flowerpots are stably kept, growth of roots is promoted, and the quantity of water absorbed by the roots in the soil and the quantity of nutrients absorbed by the roots in the soil are increased.

Description

The flowerpot water supply installation

Technical field

The utility model relates to a kind of flowerpot water supply installation, specifically is the device that a kind of flowerpot of being formed with osculum for the flowerpot bottom supplies water.

Background technology

Plant species need supply water when cultivating in flowerpot could provide moisture for the growth of plant.

Have the whole bag of tricks to supply water easily and effectively to flowerpot traditionally, the core supply that one of method wherein just is to use absorbent material to make is stored in the water in the water tank.

Traditional flowerpot water supply installation possess upward opening water tank, be installed in spill flowerpot support above the water tank, be installed in flowerpot support bottom surface horizontal core, be connected in horizontal core and arrive the vertical core of water tank inside.Water tank possesses water tank bottom and erects the water tank enclosure wall portion that forms from the full circumference of water tank bottom.Form the supporting lug of crooked twice form on the upper end of water tank enclosure wall portion.The bottom surface of flowerpot support forms a plurality of core guide holes.Horizontal core is to be made into to insert the interlayer form that layer portion cut off in the root infiltration between a pair of absorbed layer portion.Each absorbed layer portion makes of absorbent materials such as nonwoven, felts.The root infiltration is cut off layer portion and is made into netted form with the synthetic resin material of handling through UV.Root infiltration with described structure is cut off layer portion for preventing that plant roots from entering water tank inside.Vertical core is to make of absorbent materials such as nonwoven, felts.Vertical core with described structure is to enter water tank inside by the core guide hole.

Using method to traditional flowerpot water supply installation with described structure describes below.

At first assemble flowerpot support, horizontal core and vertical core.Pour water toward water tank then.Water tank fills that the water in the water tank can be sent to horizontal core by vertical core after the water.Then flowerpot is placed on the supporting lug, makes osculum and horizontal core adjacency.Placing the water that is sent to horizontal core behind the flowerpot osculum by flowerpot is absorbed by plant roots after being absorbed by the soil in the flowerpot.

But according to traditional flowerpot water supply installation, core is in the outside of flowerpot and the native absorbable water yield in the flowerpot and few.And not having obstacle between the soil in water tank and the flowerpot, when being subjected to external impact, the soil in the flowerpot flows out from osculum easily.And do not enter works in the flowerpot, so flowerpot can't stably keep former assembling state, promotes the growth of root and the water of root absorption and the amount of nutrient also to reduce (root focuses on a place) thereupon.

The utility model content

Technical problem

The purpose of this utility model is to provide a kind of can make the soil in the flowerpot absorb more water, prevent that the soil in the flowerpot from flowing out from osculum, make that flowerpot is stable to keep former assembling state, promote the growth of root, and increase the flowerpot water supply installation of the amount of water that root absorbs and nutrient in soil.

Technical scheme

For realizing described purpose, the technical scheme that the utility model adopts is: provide a kind of and be formed with the flowerpot water supply installation that the flowerpot of osculum supplies water to the bottom, comprising: water tank bottom; The water tank of upward opening possesses from the full circumference of described water tank bottom and erects the water tank enclosure wall portion that forms; Core carrier, lower end place between described water tank bottom and the described flowerpot bottom, and expose to flowerpot inside by described osculum the lower end; Core is made and is assemblied in the outer surface of described core carrier and supported by it with absorbent material.

Preferably, for supplying air by the core carrier to plant roots, described core carrier is to erect formation with taper above described water tank bottom, and the upper end forms the carrier ventilation hole; Described water tank bottom forms the bottom surface ventilation hole and is communicated with the tapered opening of described core carrier; Described water tank also comprises: space protrusion is arranged, and described water tank bottom is held the water tank fitting surface, protrudes formation and makes air enter described bottom surface ventilation hole between described water tank bottom and the water tank fitting surface in the bottom surface of described water tank bottom.

Preferably also comprise: the flowerpot support, be assemblied in described water tank inside, enter the weight of bearing flowerpot under the state of flowerpot inside at described core carrier for holding flowerpot.

Preferably also comprise: bearing support is used for that described core carrier supports described water tank bottom and the former assembling state of stablizing the holding core carrier.

Preferably, described core carrier forms taper, and the side forms gas port, and the upper end forms the carrier ventilation hole and is the root supply air of plant by the core carrier.

Preferably, described core is described carrier ventilation hole is surrounded and to prevent that the soil in the flowerpot from flowing out from the carrier ventilation hole at upside.

Preferably, for increasing the amount of supplied air to plant roots, described core carrier is longitudinally to intercept in the side to form the spill air slot, and described gas port is to form in the bottom surface of described air slot.

Beneficial effect

According to the utility model, core enters flowerpot inside and increases the water yield that the soil in the flowerpot absorbs.And assembling core carrier and can prevent that the soil in the flowerpot from falling into water tank when being subjected to external impact between the soil in water tank and the flowerpot.The core carrier enters flowerpot inside again and makes flowerpot stably keep former assembling state.The core carrier that velamen enters flowerpot inside disperses and the growth of promotion root and water and the nutrient that the increase root absorbs in soil.

Description of drawings

Fig. 1 is the sectional view of using method of the flowerpot water supply installation of an embodiment of the utility model;

Fig. 2 is the flowerpot support diagram of the flowerpot water supply installation of another embodiment of the utility model;

Fig. 3 is the installation diagram of the flowerpot water supply installation of the utility model embodiment;

Fig. 4 and Fig. 5 are the decomposition diagrams of the flowerpot water supply installation of the utility model embodiment;

Fig. 6 is the enlarged perspective of illustrated core carrier among Fig. 5;

Fig. 7 is the A-A line sectional view of Fig. 6;

Fig. 8 is the B-B line sectional view of Fig. 6;

Fig. 9 is the utility model using method diagram of the flowerpot water supply installation of another embodiment again.

Embodiment

Below in conjunction with accompanying drawing the utility model embodiment is described in detail.

According to the flowerpot water supply installation of an embodiment of the utility model possess as shown in the figure the water tank 10 of upward opening, the circular cone form that erect to form from water tank 10 bottom surfaces core carrier 21, be installed in the core 22 on the core carrier 21 and erect the flowerpot support 25 that forms in the peripheral region of core carrier 21 from the bottom surface of water tank 10.

Water tank 10 has water tank bottom 11, from what the full circumference of water tank bottom 11 erect that the bottom surface of the water tank enclosure wall portion 12 that forms, water tank bottom 11 forms space protrusion 13 is arranged.Water tank bottom 11 forms the bottom surface ventilation hole and is communicated with the tapered opening of core carrier 21.It is to form a plurality of in the bottom surface of water tank bottom 11 that space protrusion 13 is arranged.

Therefore, there is space protrusion 13 can make water tank bottom 11 supporting water tank installed surfaces, makes air enter bottom surface ventilation hole 11a between water tank bottom 11 and the water tank installed surface.

Core carrier 21 forms tapers, and the taper that this specification refers to can adopt circular cone, truncated cone shape, quadrangular pyramid, cut taper such as quadrangular pyramid and as the outer surface of tapered side.Core carrier 21 is to form at water tank bottom 11, so that flowerpot is gone into the inside that water tank 10 can enter flowerpot when inner from osculum 201 from enterprising.Core carrier 21 is to form carrier ventilation hole 21c in the upper end, and the zone that enters flowerpot inside has spill air slot 21a longitudinally to intercept formation and arrival upper end.

Air slot 21a can arrive the upper end.The bottom surface of air slot 21a has gas port 21b to connect formation along thickness direction.Core 22 is to form taper, surrounds carrier ventilation hole 21c from upside.Core 22 with described structure is to make of absorbent materials such as nonwoven, felt, sponges, and its outer surface with core carrier 21 is contacted.

Flowerpot support 25 is to form the cross form in the peripheral region of core carrier 21.The selection of the height of flowerpot support 25 should be satisfied the condition that when flowerpot support 25 upper ends flowerpots core carrier 21 can enter flowerpot inside through osculum 201.

Below in conjunction with Fig. 1 the flowerpot water supply installation of a embodiment of the utility model with described structure is described.

At first at core carrier 21 core 22 of packing into.Fill water toward water tank then.Then flowerpot is placed on the upper end of flowerpot support 25.The water core 22 that water tank is filled 10 li in water tank after the water absorbs.The water that core 22 absorbs is absorbed the back by the root absorption of plant by the soil in the flowerpot.

Air is the root that arrives plant through the path of space, connection air slot 21a and core 22 between the water surface that stores on the bottom surface of the path that connects bottom surface ventilation hole 11a and carrier ventilation hole 21c, bottom surface ventilation hole 11a, gas port 21b, the path that connects air slot 21a and core 22, bottom surface ventilation hole 11a, gas port 21b, the path that connects air slot 21a and carrier ventilation hole 21c and flowerpot 201 and the water tank 10.

In the above-described embodiment, flowerpot support 25 becomes one with water tank, but as shown in Figure 2, also can implement the utility model by flowerpot support 25 and water tank 10 being separated the mode that is installed in water tank bottom 11 or forms flowerpot supports 25 in water tank enclosure wall portion 12 after the making.

The limbers 25a that water passed through when Fig. 2 filled water for past water tank 10.

In the above-described embodiments, core carrier 21 forms taper, but the core carrier also can utilize horn shape to implement the utility model.So-called horn shape in this specification comprises forms such as taper that circular cone, quadrangular pyramid etc. are laterally inclined and truncated cone shape.

In above-described embodiment, flowerpot support 25 becomes one with water tank 10, but also can utilize the mode that flowerpot support and water tank 10 are made back and water tank 10 combinations respectively to implement the utility model.

In above-described embodiment, the flowerpot that is subjected to water tank 10 supporting is illustrated, but as shown in Figure 3, the utility model also go for being placed directly in ground on flowerpot.

Fig. 3 is the assembly state diagram of another embodiment flowerpot water supply installation again of the present utility model, Fig. 4 and Fig. 5 are respectively the utility model decomposition diagrams of the flowerpot water supply installation of another embodiment again, Fig. 6 is the enlarged perspective of illustrated core carrier among Fig. 5, Fig. 7 is the A-A line sectional view of Fig. 6, and Fig. 8 is the B-B line sectional view of Fig. 6.

Illustrated flowerpot 210' possesses rectangle flowerpot bottom 211', erects the flowerpot enclosure wall 212' of portion that forms, prolongs the flowerpot shank 213' that forms in the four corner parts of flowerpot bottom 211' to the opposite direction of the flowerpot enclosure wall 212' of portion from the circumference of flowerpot bottom 211' among Fig. 3.Flowerpot bottom 211' goes up and forms osculum 211'a.

Have described structure another embodiment of the utility model that is applicable to flowerpot the flowerpot water supply installation as shown in the figure, have upward opening water tank 10', be installed in bearing support 30' on the water tank 10', the tapered core carrier 21' that installs at bearing support 30' and the core 22' that installs at core carrier 21'.

Water tank 10' has water tank bottom 11' and erects the water tank enclosure wall 12' of portion that forms from the full circumference of water tank bottom 11'.Water tank bottom 11' forms oblong-shaped.The water tank enclosure wall 12' of portion is that it highly is lower than flowerpot bottom 211' to water tank bottom 11' when being arranged on flowerpot shank 213' lower end.

Core carrier 21' forms with taper, and the taper of indication comprises circular cone, truncated cone, quadrangular pyramid, cuts outside tables such as horn shape such as quadrangular pyramid and truncated cone shape side in this specification.The degree that can above the 211' of flowerpot bottom, protrude by osculum 211'a when the length of core carrier 21' should reach and be supported by water tank bottom 11' by bearing support 30'.And core carrier 21' upper end formation carrier ventilation hole 21'c, the side has spill air slot 21'a longitudinally to intercept formation and arrives the upper end.

Air slot 21'a can arrive the upper end.The bottom surface of air slot 21'a has gas port 21'b to connect formation along thickness direction.Gas port 21'b is at least in the corresponding section formation in zone between the 211' bottom the water tank enclosure wall 12' of portion upper end and flowerpot.Core carrier 21' with described structure is vertically installed on the plate face of following support plate 31' under the top state of contact of bottom surface and following pillar 34'.Thereupon, core carrier 21' can stand in water tank bottom 11' by bearing support 30'.

Core 22' forms taper, surrounds carrier ventilation hole 21'c from upside.Core 22' with described structure makes of absorbent materials such as nonwoven, felt, sponge, and contacts by installing with the outer surface of the outer surface of core carrier 21' and following pillar 34'.

Bearing support 30' has support plate 31', form concentrically ringed a pair of support ring 32' with support plate 31', be connected connection strap 33' between support ring 32' and the support plate 31', at the pillar 34' of the vertical formation of middle section of support plate 31'.Bearing support 31' makes the bottom surface of support plate 31' touch water tank bottom 11' when being assembling.

Below in conjunction with Fig. 9 the using method of the flowerpot water supply installation of another embodiment of the utility model with described structure is described.

At first core 22' is packed in the core carrier 21'.Then water tank 10' is inserted between the flowerpot shank 213'.Then bearing support 30' is installed in water tank bottom 11' above.Then core 22' and pillar 34' are combined, make core carrier 21' by osculum 211'a protrusion above the 211' of flowerpot bottom.Water tank 10' is filled, and the water core 22' in the water tank 10' absorbs after the water.The water that core 22' absorbs is absorbed afterwards by the root absorption of plant by the soil in the flowerpot.Air is the access path arrival plant roots through the inner space of gas port 21'b, core carrier 21' and carrier ventilation hole 21'c.

As mentioned above, according to the utility model embodiment, it is inner and increase the water absorptive amount of the soil in the flowerpot that core 22 enters flowerpot.And assembling core carrier 21 and when being subjected to external impact, can avoid the soil in the flowerpot to fall into water tank 10 between the soil in water tank 10 and the flowerpot.

Core carrier 21 enters flowerpot inside, can make the former installment state of flowerpot keep stable.The core carrier 21 that enters flowerpot inside can make root disperse and promote the growth of root and increase water that root absorbs and the amount of nutrient in soil.Water tank bottom 11 forms bottom surface ventilation hole 11a, and core carrier 21 is to form carrier ventilation hole 21c and by the root supply air of core 22 for plant.

The last formation of core carrier 21,21' gas port 21b, 21'b and increase amount of supplied air to plant roots.Form air slot 21a, 21'a at core carrier 21,21', form gas port 21b, 21'b in the bottom surface of air slot 21a, 21'a and further increase amount of supplied air to plant roots, make the ponding of flowerpot bottom surface flow into water tank 10,10' along air slot 21a, 21'a in the mode that falls into naturally.

The mounted inside flowerpot support 25 of water tank 10 and the supporting flowerpot.

And increase bearing support 30', make core carrier 21' stably keep former installment state.

Core 22,22' surround carrier ventilation hole 21c, 21'c and prevent that the soil in the flowerpot from flowing down from carrier ventilation hole 21c, 21'c from upside.

Claims (5)

1. a flowerpot water supply installation is characterized in that, the flowerpot of being formed with osculum be used for for the flowerpot bottom supplies water, and comprising: water tank bottom and erect the water tank of upward opening of the water tank enclosure wall portion of formation from the full circumference of described water tank bottom; The lower end places between described water tank bottom and the described flowerpot bottom, the core carrier that expose to flowerpot inside by described osculum the lower end; Make and be assemblied in the outer surface of described core carrier and be subjected to the core of its supporting with absorbent material;

Described core carrier is to erect formation with taper above described water tank bottom, and the upper end forms the supporting mass ventilation hole;

Described water tank bottom forms the bottom surface ventilation hole and is communicated to the tapered opening of described core carrier;

Described water tank also comprises: space protrusion is arranged, and described water tank bottom is held the water tank fitting surface, protrudes formation and makes air enter described bottom surface ventilation hole between described water tank bottom and the water tank fitting surface in the bottom surface of described water tank bottom.

2. flowerpot water supply installation according to claim 1 is characterized in that, also comprises:

The flowerpot support is assemblied in described water tank inside, enters the weight of bearing flowerpot under the state of flowerpot inside at described core carrier.

3. flowerpot water supply installation according to claim 1 is characterized in that,

Described core carrier forms taper, and the side forms gas port, and the upper end forms the carrier ventilation hole.

4. flowerpot water supply installation according to claim 3 is characterized in that,

Described core is to surround described carrier ventilation hole from upside.

5. flowerpot water supply installation according to claim 3 is characterized in that,

Described core carrier is longitudinally to intercept the air slot that forms spill in the side, and described gas port is to form in the bottom surface of described air slot.

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