KR20170003332U - pot insert flowerpot - Google Patents

Abstract

According to an aspect of the present invention, there is provided a pot holder comprising: an outer housing having a hollow space therein and formed with an insertion hole on an upper surface thereof; And a breather port formed in a cup shape capable of containing a soil of a reference value or more so that all or a part of the breather port is drawn into the outer housing through the insertion hole, wherein a plurality of drain holes are formed in the breeding port, Water supplied to the inside of the breeding port is stored in the inner space of the outer housing through the drain hole. The pot-pot according to the present invention can prevent the overflow of water to the outside even if the water supply is somewhat high, and the water discharged to the outside of the soil can be re-supplied to the soil, It is possible to prevent damage, and it is advantageous that the appearance is good and the plant can be easily replaced and the utilization is very high.

Description

 Pot stand flowerpot {pot insert flowerpot}

The present invention relates to pots for plant cultivation, and more particularly, to port pots for easy maintenance and irrigation management, wherein the pots for planting are inserted into an outer housing for storing water.

Generally, a garden is a specific area that is aesthetically and functionally constructed by natural materials such as soil, stone, water, and trees, artifacts and buildings, including stairs, walls, fences, Benches, lawns and fences, lighting, sculptures and other ornaments.

A garden usually means a garden where the outside space of the house is treated for practical and aesthetic purpose. The garden is not only a reflection of the residential culture, but also a place where the life culture, value system and arts of a society and the age are collectively gathered together. However, a large number of the above-mentioned gardens are installed outdoors or indoors, which is problematic in that it requires a large cost and occupies a space more than necessary.

Therefore, a flowerpot filled with a certain amount of soil is utilized in various structures and specifications so that the plant can be grown freely without being admitted to the place. These pollen are made of various materials to suit the application and environment, such as ceramics, synthetic resin, wood, etc., and have a space for storing soil, a drain for drainage of water, and a water support for collecting the flowing water.

However, such conventional pots can overflow water when the water supply amount is excessive, and plants can be damaged when the water supply amount is too small. In particular, it is necessary to precisely control the amount of water supplied once the soil containing nutrients and water is less, so that it is very difficult to supply the water in the correct amount because the amount of water is changed once depending on the types of plants and soil. This phenomenon frequently occurs.

In addition, the conventional pollen has a problem in that water remaining in the water support is not reabsorbed into the soil in the pollen, and when the water can not be fed for a long time, the plant is easily damaged, There is a management inconvenience.

In addition, the water support included in the conventional pots has a disadvantage that the water storage capacity is very small as compared with the inner space of the flowerpot, so that the water in the water support can easily overflow and is directly exposed to the outside.

KR 10-0653790 B1

The present invention has been proposed in order to solve the above problems, and it is possible to prevent the water from overflowing even if the water supply amount is somewhat high, and to discharge the water discharged to the outside of the soil to the soil, It is an object of the present invention to provide a port pot flower pot which can prevent the damage of the plant even if it is not done, has an excellent appearance and is easy to change the plant and has high utilization.

According to an aspect of the present invention, there is provided a port pot flower pot comprising: an outer housing having an empty space therein and having an insertion hole formed on an upper surface thereof; And a breather port formed in a cup shape capable of containing a soil of a reference value or more so that all or a part of the breather port is drawn into the outer housing through the insertion hole, wherein a plurality of drain holes are formed in the breeding port, Water supplied to the inside of the breeding port is stored in the inner space of the outer housing through the drain hole.

Wherein a flange is formed at an edge of the insertion hole in a stepped shape and an upper edge of the development port is fixed to the insertion end. When the flange of the implantation port is seated in the insertion end of the insertion hole, And the height of the top surface of the breeding port is equal to the height of the top surface of the outer housing.

The drain hole is formed on a bottom surface of the growth port, and a plurality of slots having a length in a vertical direction are formed on a wall surface of the growth port.

Two or more insertion holes are formed on the upper surface of the outer housing, and two or more developing ports are drawn into one outer housing. A partition wall is formed in the inner space of the outer housing between the adjacent developing ports.

A water supply pump for discharging water at the bottom of the inner space of the outer housing at a high pressure and a water supply pipe for supplying the water discharged from the water supply pump to the soil in the water supply port.

The pot-pot according to the present invention can prevent the overflow of water to the outside even if the water supply is somewhat high, and the water discharged to the outside of the soil can be re-supplied to the soil, It is possible to prevent damage, and it is advantageous that the appearance is good and the plant can be easily replaced and the utilization is very high.

FIG. 1 is a perspective view of a port pot according to the present invention. FIG.
FIG. 2 is an exploded perspective view of the pot holder pollen according to the present invention. FIG.
Fig. 3 is a cross-sectional perspective view of the port pot according to the present invention. Fig.
Fig. 4 is a cross-sectional view of the port pot according to the present invention. Fig.
Fig. 5 is a cross-sectional perspective view of a breeding port included in the port pot according to the present invention. Fig.
Figs. 6 and 7 are an exploded perspective view and a cross-sectional view of the second embodiment of the port pot according to the present invention.
8 is a cross-sectional view of a third embodiment of the port pot according to the present invention.
9 is a cross-sectional view of a fourth embodiment of the port pot according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an embodiment of a port pot according to the present invention will be described in detail with reference to the accompanying drawings.

Fig. 1 is a perspective view of a port pot according to the present invention, Fig. 2 is an exploded perspective view of the pot pot according to the present invention, Fig. 3 is a perspective view of a pot pot according to the present invention, and Fig. Fig. 3 is a cross-sectional view of a pot holder pot.

The port preparation pot according to the present invention is composed of a breeding port 200 filled with planting soil and an outer housing 100 for storing water discharged from the breeding port 200, Is configured to be drawn into the inside of the outer housing 100 so that the water discharged from the growing port 200 does not flow to the outside and can be stored in the outer housing 100 .

That is, the outer housing 100 included in the present invention has a hollow space therein, and an insertion hole 110 is formed on the upper surface of the outer housing 100. The development port 200 is formed into a cup shape capable of containing soil above a reference value, Is inserted into the outer housing (100) through the insertion hole (110). A plurality of drain holes 220 are formed in the growing port 200 so that water supplied to the inside of the growing port 200 (more specifically, water supplied to the soil filled in the growing port 200) And is discharged to the outside of the breeding port 200 through the hole 220. At this time, the inner space of the outer housing 100 communicates with the outside only through the upper insertion hole 110, so that the water discharged from the developing port 200 is not drawn out of the outer housing 100, ). ≪ / RTI >

Therefore, it is possible to prevent a phenomenon in which water flows out to the outside even if a relatively large amount of water is supplied to the soil where the plants are planted, by using the port pot flower pot according to the present invention, The water in the outer housing 100 is reabsorbed into the soil within the cultivation port 200. This makes it possible to prevent the plant from being damaged even if water is not supplied to the plant for a long period of time .

In addition, even if only the plant is placed on the growing port 200 without filling the soil in the growing port 200, the plants in the growing port 200 can receive water for a long period of time, There is an advantage that it is possible to cultivate hydroponics using a pot.

In order to allow the breeding port 200 to be submerged when the water level in the outer housing 100 rises above a certain level, the bottom of the breeding port 200 is spaced a certain distance from the bottom surface of the outer housing 100 Be able to maintain state. In order to separate the bottom surface of the breeding port 200 from the bottom surface of the outer housing 100, the upper end of the breeding port 200 must be able to extend over the insertion hole 110.

At this time, a step-shaped mounting terminal 120 is formed at the edge of the insertion hole 110 so that the upper end of the charging port 200 does not protrude from the upper surface of the outer housing 100, The flange 210 may be formed on the upper end of the mounting portion 120, When the mounting hole 120 is formed in the insertion hole 110 and the flange 210 is formed in the developing port 200 so that the height of the upper surface of the developing port 200 and the height of the upper surface of the outer housing 100 are the same Thereby forming a single flat surface, which is advantageous in that the appearance is good.

Of course, when the breeding port 200 is pulled into the outer housing 100 through the insertion hole 110 according to various conditions such as the type of plants planted in the breeding port 200 and the water supply pattern, 200 may be mounted on the bottom surface of the outer housing 100 and the upper surface of the developing port 200 may protrude from the upper surface of the outer housing 100.

5 is a cross-sectional perspective view of another embodiment of the breeding port 200 included in the port pot according to the present invention.

If the plants planted in the breeding port 200 are required to drain quickly, if the drain hole 220 is formed only on the bottom surface of the breeding port 200, it is difficult to rapidly drain the plants, .

Therefore, in order to allow quick drainage of the growth port 200 included in the present invention, the drain hole 220 is formed on the bottom surface of the growth port 200, and a plurality of vertically- Preferably, a slot 230 is formed.

When the drain hole 220 and the slot 230 are formed on the bottom surface and the wall surface of the upflow port 200 as described above, water supplied into the upflow port 200 can be discharged very quickly, And the plant can grow normally.

At this time, the shape and the number of the slots 230 formed on the wall surface of the breeding port 200 are not limited to the shapes and the numbers shown in the present embodiment, and can be freely changed according to the user's selection.

Figs. 6 and 7 are an exploded perspective view and a cross-sectional view of the second embodiment of the port pot according to the present invention, and Fig. 8 is a sectional view of the third embodiment of the pot pot according to the present invention.

The port pot according to the present invention may be configured such that a plurality of breeding ports 200 are mounted on one outer housing 100. 6 and 7, two or more insertion holes 110 are formed on the top surface of the outer housing 100, and a plurality of insertion holes 110 are formed in the insertion holes 110, And the breeding port 200 may be drawn in.

As described above, when a plurality of breeding ports 200 are installed in one outer housing 100, various kinds of plants can be divided and planted in one outer housing 100, and the manufacturing cost of the outer housing 100 Can be reduced.

Also, as shown in this embodiment, when a plurality of breeding ports 200 are installed in one outer housing 100, even if a large amount of water is supplied to any one of the plurality of breeding ports 200, Can be absorbed by each of the breeding ports 200, it is possible to prevent the plants of the breeding port 200 from failing due to the failure to supply the water. Also, even if there is a difference in the amount of water supplied to each of the breeding ports 200, water in the outer housing 100 can be uniformly absorbed into each of the breeding ports 200, 200) can be grown evenly, which makes it easy to maintain and manage the plant.

Of course, when the plants planted in the respective breeding ports 200 require different amounts of water supply, the partition 130 is formed in the inner space of the outer housing 100 between adjacent inlet ports of the breeding port 200 .

8, when the partition 130 is installed in the outer housing 100, the water level of the water filled in the inlet port of each of the ports 200 is different from that of each of the ports 200 The amount of water to be absorbed can be set differently.

That is, when the potted plant pot shown in FIG. 8 is used, when plants planted in the potting port 200 need to supply a large amount of water, the potting pot 200 is immersed in a large amount of water When the plants planted in the breeding port 200 are required to be supplied with a small amount of water, they are hardly immersed in water, such as the breeding port 200 located on the right side, It has the advantage of supplying different amounts of water to plants.

At this time, the partition 130 installed between the two adjacent inlet ports of the breeding port 200 can be applied to any form as long as it can isolate water stored in the inlet port of each breeding port 200. That is, the partition 130 has a plate shape extending upward from the bottom surface of the outer housing 100, and may extend to the ceiling of the outer housing 100 as shown in the present embodiment, 100) to a predetermined height from the bottom surface thereof.

9 is a cross-sectional view of a fourth embodiment of the port pot according to the present invention.

4 to 8, even if only a part of the lower part of the breeding port 200 is submerged in water, the soil in the breeding port 200 can remain wet with water, The plant can be supplied with water necessary for growth. However, if the roots of the plants planted in the breeding port 200 can not be extended sufficiently below the breeding port 200, the plants may not receive sufficient water.

Therefore, the port pot flower pot according to the present invention can be configured so as to raise the water to the bottom of the inner space of the outer housing 100 and supply it to the surface of the soil in the cultivation port 200. That is, as shown in FIG. 9, the port pot according to the present invention includes a water supply pump 300 for discharging water high at the bottom of the inner space of the outer housing 100 at a high pressure, And a water supply pipe (400) for supplying the discharged water to the soil in the cultivation port (200).

The water supply pump 300 includes an inlet nozzle 310 for sucking water and a water supply pipe 400 connected to a discharge nozzle 320 for discharging water, The handle 330 is configured to extend to the outside of the housing. Therefore, the user can operate the handle 330 protruding to the outside of the housing to supply the water on the bottom of the outer housing 100 to the surface of the soil of the cultivation port 200, which is advantageous in that the water pipe 400 is very convenient have.

In addition, as shown in this embodiment, it is possible to reuse the water remaining on the bottom of the outer housing 100 to save water used for plant growth, There is an advantage that the phenomenon can be prevented.

While the present invention has been described in detail with reference to the preferred embodiments thereof, the scope of the present invention is not limited to the specific embodiments but should be construed according to the appended claims. Those skilled in the art will appreciate that many modifications and variations are possible without departing from the scope of the present invention.

100: outer housing 110: insertion hole
120: mounting part 130: partition wall
200: Raising port 210: Flange
220: drain hole 230: slot
300: feed pump 310: inlet nozzle
320: Discharge nozzle 330: Handle
400: water supply pipe

Claims (5)

An outer housing 100 having a hollow space therein and having an insertion hole 110 formed on an upper surface thereof;
A breeding port 200 formed in a cup shape capable of containing a soil of a reference value or more and being entirely or partially introduced into the outer housing 100 through the insertion hole 110;
And,
A plurality of drain holes 220 are formed in the upflow port 200 so that water supplied to the inside of the upflow port 200 is stored in the inner space of the outer housing 100 through the drain hole 220 A pot stand featuring a pot.
The method according to claim 1,
A stepped end 120 is formed at the edge of the insertion hole 110,
A flange 210 is formed at an upper edge of the breeding port 200 to be fixed to the mounting terminal 120,
When the flange 210 of the breaching port 200 is seated on the mounting end 120 of the insertion hole 110, the height of the upper surface of the developing port 200 is the same as the height of the upper surface of the outer housing 100 Features a pot stand pot.
The method according to claim 1,
The drain hole 220 is formed on a bottom surface of the breeding port 200,
And a plurality of slots (230) having a length in a vertical direction are formed on a wall surface of the breeding port (200).
The method according to claim 1,
At least two insertion holes 110 are formed on the upper surface of the outer housing 100 so that two or more developing ports 200 are inserted into one outer housing 100,
Wherein a partition wall (130) is formed in an inner space of the outer housing (100) between adjacent inlet ports of the breeding port (200).
The method according to claim 1,
A water supply pump 300 for discharging water at the bottom of the inner space of the outer housing 100 at a high pressure and a water supply pipe 400 for supplying water discharged from the water supply pump 300 to the soil in the upflow port 200 ≪ / RTI >

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