KR101475859B1 - Floating pot - Google Patents

Abstract

The present invention relates to a floating pot for allowing an underground structure to be conveniently inspected, comprising an outer housing having an upper surface opened to receive moisture supplied to a plant to be cultured, ; The plant root receiving part being provided to be movable along the height direction of the outer housing and receiving the plant root receiving part for receiving the root of the plant and supplying the water to the plant root receiving part side, of; So as to maintain the optimum condition in which a certain amount of water can be always supplied to the plants cultivated in the flowerpot and to determine the timing of supplying water according to the position of the plant cultivated in the flowerpot, There is an effect that the phenomenon of decay or failure can be prevented.

Description

{FLOATING POT}

More particularly, the present invention relates to a floating powder which can maintain optimal culture conditions by keeping the amount of water supplied to plants cultivated in pots constant.

As the economy and industry develop, forests and green spaces decrease, instead, the housing space due to population growth increases, and the demand for pots that can access nature within a limited space is increasing.

Pollen, which mainly functions indoors rather than outdoors, is a means to stimulate human vision or olfactory and to energize human beings, but in its shape and form, there is no big change in the shape of round cylinder with the bottom blocked.

1 is a perspective view showing a structure in which a plant is cultivated in a conventional pot.

As shown in FIG. 1, a flowerpot 10 in which a conventional plant is cultivated is covered with a bottom surface, and a drain port 13 capable of draining water is formed at the center thereof. A large number of cushioning materials 14 are provided to reduce the load depending on the size of the pots 10, but water is held between the cushioning material 14 and the cushioning material 14, For a long time.

When water is given to the conventional pot flower 10, plants that are cultivated while staying in the vicinity of the potted soil 12 and the cushioning material 14 are absorbed, and an excessive amount of water is drawn into the water outlet 13 of the bottom surface of the pot 10, Thereby releasing moisture to the plant.

However, in the conventional pollen 10, if the supply of water to the plant to be cultivated is too frequent, the roots of the plant 11 will be rotten. On the contrary, if the supply of water is insufficient, .

Therefore, water must be periodically supplied to the flowerpot 10, so it is important for administrators to pay considerable attention and care, as well as to remember how much water should be given depending on the type of plant 11, It is not easy to lose time or too much water is supplied to the plant to be cultivated rotten or dead.

It is an object of the present invention, which has been devised in view of the above, to provide a plant which can maintain an optimal condition in which a certain amount of water can always be supplied to plants cultivated in a flowerpot, And to provide a floating flower pot which can prevent the rottenness or the deadening of the root of the plant by judging the timing to supply.

According to an aspect of the present invention, there is provided a floating flowerpot having an upper surface opened to receive water supplied to a plant to be cultured, An outer housing; The plant root receiving part being provided to be movable along the height direction of the outer housing and receiving the plant root receiving part for receiving the root of the plant and supplying the water to the plant root receiving part side, of; .

Here, the inner housing may be formed of any one of cork and bark which absorbs the moisture and floats on the moisture, or a mixed material thereof.

The bottom surface of the inner housing may be formed with a plurality of through holes, which are passages for supplying the moisture to the plant root receiving portion.

According to another aspect of the present invention, there is provided a floating flowerpot having an upper surface opened to receive water supplied to a plant to be cultured, An outer housing; An inner housing which is movably provided along the height direction of the outer housing and receives a plant root storing portion in which the root of the plant is accommodated and has a flow hole formed on the bottom face thereof so as to supply the moisture to the plant root receiving portion; A floating means for allowing the inner housing to float by moisture contained in the inner space of the outer housing; .

Here, the floating means may be formed of an annular tube disposed along the circumferential direction on one side of the outer surface of the inner housing.

The plant root receiving part may be formed of any one of cork, bark, zeolite, gravel and soil, or a mixed material thereof.

The height of the outer housing may be relatively higher than the height of the inner housing.

In addition, the upper surface of the inner housing may further include a separate contact member for allowing the plant root receiving portion received in the inner housing to closely contact the inner surface of the inner housing.

The contact member may include a plate-shaped seating plate that is seated on the upper surface of the plant root receiving portion, and a plurality of embossed stones placed on the upper surface of the seating plate.

In addition, on the outer surface of the outer housing, a coating material of a translucent material is applied to a lower portion of the outer housing, and a coating material that gradually becomes opaque toward the upper side along the height direction of the outer housing may be applied.

As described above, the suspended pollen according to the present invention can maintain the optimal conditions for supplying a certain amount of water to the plants cultivated in the pollen at the same time, and supply water according to the position of the plant cultured in the pollen By determining the timing, it is possible to prevent the roots of plants from decaying or failing.

1 is a perspective view showing a structure in which a plant is cultured in a conventional pot,
FIG. 2 is a cutaway perspective view showing a structure in which a plant is cultured in a floating pot according to an embodiment of the present invention,
FIG. 3 is a longitudinal sectional view showing a structure in which plants are cultured in a floating pot according to an embodiment of the present invention,
FIG. 4 is an operation diagram illustrating the operation of cultivating a plant in a floating pot according to an embodiment of the present invention,
5 is a longitudinal sectional view showing a structure in which plants are cultured in a suspension plant according to another embodiment of the present invention.

Hereinafter, the suspended particles according to one embodiment of the present invention will be described in more detail with reference to the accompanying drawings.

FIG. 2 is an exploded perspective view showing a structure in which a plant is cultured in a floating pot according to an embodiment of the present invention. FIG. 3 is a view illustrating a structure in which plants are cultured in a floating pot according to an embodiment of the present invention 4 is a view illustrating an operation in which a plant is cultivated in a floating pot according to an embodiment of the present invention, and FIG. 5 is a view illustrating a structure in which a plant is cultivated in a floating pot according to another embodiment of the present invention Fig.

As shown in FIGS. 2 and 3, the float flower pot according to an embodiment of the present invention includes an upper surface opened to receive water supplied to a plant to be cultured, and a constant internal space 110 And a plant root receiving part 210 accommodated in the plant root receiving part 210 for receiving the root of the plant so as to be movable along the height direction of the outer housing 100, And an inner housing (200) which is supplied to the housing (210) side and floats to the moisture contained in the outer housing (100).

The outer housing 100 is a cylindrical member having a predetermined inner space 110 in which an upper surface is opened and water can be received. The shape of the outer housing 100 may be a cylindrical shape having the same shape as the lower surface and the upper surface. However, it is of course possible to form the outer housing 100 in a shape of a vertical beam with a diameter increasing gradually along the height direction.

This is because the inner housing 200, which is provided so that the amount of water contained therein is larger than the amount of water accommodated by the cylinder having the same diameter as the diameter of the bottom surface, and is movably provided in the outer housing 100 So as not to be interfered by the inner surface of the outer housing 100 when moving to the upper side.

A surface coating agent of a semi-transparent material is coated on the outer surface of the outer housing 100 so as to protect the surface of the outer housing 100 and to recognize the amount of moisture filled in the outer housing 100. The surface coating agent is applied from the lower side to the upper side of the outer housing 100 It is preferable to be made of a material which gradually becomes opaque.

This is because the water level of the external housing 100 is required to be re-supplied by coating the lower side of the external housing 100 with a translucent material to clearly recognize the water level, The plant root receiving part 210 filled with the inner housing 200 or the root of the plant or the like is not exposed to the outside, thereby pursuing aesthetic effect.

The height of the outer housing 100 may be relatively higher than the height of the inner housing 200 provided in the inner space 110 so that the inner housing 200 may be filled with moisture, It is preferable not to be released to the outside of the housing 100.

The inner housing 200 is formed to have a relatively lower height than the outer housing 100 and has a diameter smaller than the diameter of the outer housing 100 so that the inner housing 200 is formed in the inner space 110 of the outer housing 100 And is movable in the height direction.

The outer shape of the inner housing 200 is similar to the outer shape of the outer housing 100. That is, when the outer housing 100 is formed into a cylindrical shape, the inner housing 100 is also formed in a cylindrical shape, 100 are formed in a shape of an upper limit of the light intensity, the inner housing 100 may also be formed in a shape of a lowered light.

This is because the outer surface of the inner housing 200 is disposed closely to the outer surface of the outer housing 100 to prevent the inner housing 200 floating by moisture from flowing in the inner space of the outer housing 100.

A plurality of flow passages 220 may be formed in the bottom surface of the inner housing 200 so as to pass the moisture to the plant root receiving portion 210. However, In the case where the filter is formed of a material such as cork or bark capable of absorbing moisture, there is no need to form a separate flow hole 220, but in order to shorten the time taken for moisture to be absorbed toward the root portion 210 of the plant root It is more preferable to form a plurality of flow paths 220.

The inner housing 200 is formed of a material such as cork or bark that can float on its own moisture or a mixed material thereof and absorbs moisture and simultaneously absorbs water and transmits moisture to the plant root receiving part 210 side Thereby making it possible for plants to absorb nutrients simultaneously with moisture.

The plant root receiving part 210 accommodated in the inner housing 200 is a member for supplying nutrition to the plant to be cultivated in the inner housing 200. The plant root receiving part 210 is also connected to the inner housing 200 Similarly, it may be formed of a material such as cork, bark, or a mixed material thereof, which may float in water, or may be formed of a material such as general soil, gravel, or zeolite.

The upper surface of the inner housing 200 may further include a separate contact member 230 for allowing the plant root receiving portion 210 accommodated in the inner housing 200 to closely contact the inner surface of the inner housing 200.

The tight fitting member 230 is fixed to the inner housing 200 by the gravity force so that the plant root receiving portion 210 accommodated in the inner housing 200 closely contacts the inner surface of the inner housing 200. [ And serves to pressurize the inner surface of the outer housing 100 to absorb the moisture contained in the inner space 110 of the outer housing 100 more quickly.

Such a contact member 230 may include a plate-shaped seating plate 231 that is seated on the upper surface of the plant root receiving portion 210 and a plurality of elaborate pieces 232 that are placed on the upper surface of the seating plate 231 And the seating plate 231 are formed in a flat plate shape so as to uniformly generate a pressing force on the entire upper surface of the plant root receiving section 210.

On the upper surface of the seating plate 231, a plurality of ornamental stones 232 for increasing the strength of gravity applied to the plant root receiving section 210 are seated. The ornamental stones 232 have aesthetic effect It is of course possible to arrange them in various colors so as to induce them.

The process of cultivating a plant in a floating flowerpot according to an embodiment of the present invention having such a configuration will now be described with reference to FIG.

When water is poured into the inner space 110 of the outer housing 100 to supply water to the plant cultured in the floating pot including the outer housing 100 and the inner housing 200, 100 and the outer surface of the inner housing 200 to the bottom surface of the outer housing 100 while the other portion is absorbed by the plant root receiving portion 210 and the inner housing 200, And moves to the bottom surface of the housing 100.

The inner housing 200 is gradually moved to the outer housing 100 while the provided water moves to the bottom surface of the outer housing 100 while the inner housing 200 which is movably provided inside the outer housing 100 floats on the water, So that it floats in the water.

The plant cultured in this state is constantly absorbing the water contained in the outer housing 100 by a required amount and at the same time is supplied with nutrients from the plant root storage part 210 and grows in the outer housing 100 The inner housing 200 moves downward and the lower end of the inner housing 200 is finally exposed by the translucent lower portion of the outer housing 100. [

In this state, the water is supplied to the outer housing 100 again, and the plant is cultured while being supplied with moisture and nutrients while repeating the above-described process, so that the plant is damaged due to lack of water or excess of water supplied causes the roots to decay The phenomenon can be prevented.

Meanwhile, FIG. 5 is a vertical sectional view showing a structure in which plants are cultured in a floating plant pot according to another embodiment of the present invention, wherein the same parts as those of the floating pot according to an embodiment of the present invention are given the same reference numerals And a detailed description thereof will be omitted.

As shown in the drawing, the float flower pot according to another embodiment of the present invention includes an inner space 110 in which an upper surface is opened so that water supplied to a plant to be cultured can be received, A plant root receiving part 210 which is movably provided along the height direction of the outer housing 100 and accommodates the root of the plant is housed in the plant root receiving part 210, And a floating means 240 for allowing the inner housing 200 to float by the water contained in the inner space 110 of the outer housing 100. [ ).

Since the inner housing 200 according to another embodiment of the present invention is provided with a separate floating unit 240 different from the inner housing 200 according to the embodiment of the present invention, It may be formed of a general plastic material or a synthetic resin material.

A separate flow hole 220 is formed on the bottom surface of the inner housing 200 so that water can be supplied to the plant to be cultivated through the plant root receiving part 210. The flow hole 220 is formed of a water- It is preferable to have a larger diameter than the flow path hole 220 formed in the inner housing 200 of the floatation pot according to an embodiment of the present invention so as to be able to absorb it quickly.

The floating means 240 may be formed of an annular tube 240 disposed on one side of the outer surface of the inner housing 200 along the circumferential direction of the inner housing 200. The tube 240 may be made of an adhesive It is effective to adhere to the outer surface of the inner housing 200.

The outer diameter of the tube 240 should be smaller than the inner diameter of the outer housing 100 and the inner diameter of the tube 240 may be the same as the outer diameter of the inner housing 200.

In addition, when the tube 240 is provided, since the space between the outer housing 100 and the inner housing 200 is spaced apart by the width of the tube 240, moisture can be easily and quickly supplied to the interior of the outer housing 100 There is an effect that can be.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

100: inner housing 110: inner space
120: Euro ball 200: Outer housing
210: Plant root collection part 220: Euro ball
230: close contact member 231:
232: embellishment stone 240: floating means (tube)

Claims (10)

An outer housing having an upper surface opened to receive moisture supplied to the plant to be cultured and having a constant inner space in which the water is received and formed in a shape of a supersonic contraction whose diameter progressively increases toward the upper side along the height direction, ;
A plant roots storage part accommodated in the plant root storage part which is movably provided along the height direction of the outer housing and in which the roots of the plant are received, the water is supplied to the root of the plant root storage part and floated to moisture contained in the outer housing, An inner housing formed in an upwardly projecting shape such that its diameter progressively increases toward the upper side along the height direction so as to correspond to the housing;
And an upper surface of the inner housing is provided with a contact member for allowing the plant root receiving portion accommodated in the inner housing to closely contact the inner surface of the inner housing;
Wherein the floating flower pot is characterized by containing. The method according to claim 1,
Wherein the inner housing is formed of any one of cork and bark materials that absorb the moisture and float in the water, or a mixed material thereof. 3. The method of claim 2,
Wherein a bottom surface of the inner housing is formed with a plurality of through holes, which are passages for supplying the water to the plant root receiving portion side. An outer housing having an upper surface opened to receive moisture supplied to the plant to be cultured and having a constant inner space in which the water is received and formed in a shape of a supersonic contraction whose diameter progressively increases toward the upper side along the height direction, ;
A flow path hole is formed in a bottom surface of the outer tubular housing so as to supply the water to the root of the plant root compartment, The inner housing being formed in a shape of an upper light bulge shape in which the diameter gradually increases toward the upper side along the height direction so as to correspond to the moisture contained in the outer housing and correspond to the outer housing;
A floating means for allowing the inner housing to float by moisture contained in the inner space of the outer housing;
And an upper surface of the inner housing is provided with a contact member for allowing the plant root receiving portion accommodated in the inner housing to closely contact the inner surface of the inner housing;
Wherein the floating flower pot is characterized by containing. 5. The method of claim 4,
Wherein the floating means is an annular tube disposed on one side of the outer surface of the inner housing along the circumferential direction thereof. 6. The method according to any one of claims 1 to 5,
Wherein the plant root receiving part is formed of any one of cork, bark, zeolite, gravel and earth or a mixed material thereof. The method according to claim 6,
Wherein the height of the outer housing is relatively higher than the height of the inner housing. delete The method according to claim 1,
Wherein the contact member includes a plate-shaped seating plate that is seated on the upper surface of the plant root receiving portion, and a plurality of embossed stones placed on the upper surface of the seating plate. The method according to claim 6,
Wherein a portion of a lower side of the outer housing is coated with a coating material of a translucent material and a coating material that gradually becomes opaque toward the upper side of the outer housing is coated on the outer surface of the outer housing.

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