KR200457473Y1

KR200457473Y1 - Flower pot

Info

Publication number: KR200457473Y1
Application number: KR2020110007676U
Authority: KR
Inventors: 한형두
Original assignee: 한형두
Priority date: 2011-08-24
Filing date: 2011-08-24
Publication date: 2011-12-20

Abstract

The present invention is a potted body, the upper part is open so that the plant is planted in the upper part, and seated at a set height in the interior of the potted body, partitioning the inner space of the planter body into the upper space and the lower space, to the upper space Is a partition plate into which soil and a plant are input, a drip tray disposed to enable storage and withdrawal into the lower space through a drip hole formed in a side surface corresponding to the lower space in the firebox body, and the partition plate. The hollow tube is communicatively coupled to the insertion hole formed in the center portion, extending through the tube, the lower part is soaked in the water in the drip tray and the upper part is extended to surround the root of the plant planted in the pot body Osmotic communication for supplying water in the drip tray to the vicinity of the roots by osmotic pressure It provides a flowerpot comprising a water supply means including a material.
Therefore, since the water can be supplied near the root of the plant, the growth of the plant is promoted. In addition, the distance between the osmotic communication member and the root of the plant can be easily adjusted by manipulating the insertion depth of the tube. Moreover, the inner space of the pot body can be easily partitioned, so that plants can be planted in the upper space and the drip tray can be installed in the lower space, thereby improving the overall appearance.

Description

Flower pot {Flower pot}

The present invention relates to a pollen, and more particularly to a pollen that can supply water evenly throughout the root of the plant.

In general, a planter pedestal is installed in the lower part of the pot, and a drip tray is installed in the planter pedestal. When the user waters the pot, some of it is absorbed by the soil, and the rest is collected in the drip tray through the drain hole of the pot.

However, when the user does not manage the pollen for a long time due to long-term business trip or travel, there is a problem in that the plant is dried out due to difficulty in supplying moisture to the pollen. In order to prevent this, but also give a lot of water to the pot, too much water is not only the soil is not absorbed, the water of the drip tray overflows, there is a problem that the room is dirty. However, there is a problem that it is difficult to increase the size of the pot itself or the size of the drip tray itself. Moreover, when a lot of water is given to the pot without checking that there is water in the drip tray, there is a problem that the water in the drip tray overflows quickly.

In order to solve this problem, Korean Utility Model Publication No. 20-2009-0000432 is provided with a drip tray for storing water in the lower part of the pot body, and a technique for transferring the water in the drip tray to the soil in the pot body through the absorbent material is disclosed. have. However, in the case of such a pot, because the drip tray that performs the function of the bucket has a sealed structure, when the pot is watered a lot, the roots rot because the water remains completely wet to the soil through the water drain. have. In addition, since the water in the drip tray is delivered only to the lower part of the soil, it is difficult to supply uniform moisture to the plant root as a whole.

An object of the present invention is to provide a pollen capable of uniformly supplying water to the entire root of a plant.

The present invention is a potted body, the upper part is open so that the plant is planted in the upper part, and seated at a set height in the interior of the potted body, partitioning the inner space of the planter body into the upper space and the lower space, to the upper space Is a partition plate into which soil and a plant are input, a drip tray disposed to enable storage and withdrawal into the lower space through a drip hole formed in a side surface corresponding to the lower space in the firebox body, and the partition plate. The hollow tube is communicatively coupled to the insertion hole formed in the center portion, extending through the tube, the lower part is soaked in the water in the drip tray and the upper part is extended to surround the root of the plant planted in the pot body Osmotic communication for supplying water in the drip tray to the vicinity of the roots by osmotic pressure It provides a flowerpot comprising a water supply means including a material.

In addition, according to another aspect of the present invention, the present invention, the planter body which is open at the top so that the plant is planted in the upper, the planter pedestal supporting the planter body from the bottom, and can be stored and withdrawn into the inner space of the planter pedestal A drip tray disposed so as to be disposed so as to be inserted into and inserted into a drainage hole formed in a lower surface of the pot body and a communication hole of the pot holder, the tube extends through the tube and has a lower portion soaked with water in the drip tray. An upper portion extends to surround the roots of the plants planted in the pot body and provides a pollen including a water supply means having an osmotic communication member for supplying water in the drip tray to the vicinity of the root by osmotic pressure.

According to another aspect of the present invention, the present invention, the planter and the upper part is open so that the plant is planted to the upper, and is seated at a set height in the interior of the planter body, the inner space of the planter body in the upper space and the lower space The upper space is divided into a partition plate into which soil and plants are input, a water reservoir which is separated from or detachably coupled to the pot body, and is inserted through the insertion hole formed at the center of the partition plate. A hollow tube, extending through the tube and having a lower end soaked with water in the water reservoir and an upper end extending to surround the roots of the plant planted in the pot body, thereby preventing the water in the water reservoir by osmotic pressure. Pollen including water supply means having an osmotic communication member for supplying near the root Provided.

Pollen according to the present invention has the following effects.

First, the plant's growth is promoted because it can moisturize near the roots of the plant.

Second, the distance between the osmotic communication member and the root of the plant can be easily adjusted by manipulating the insertion depth of the tube.

Third, the osmotic communication member can be wrapped around the roots of the plurality of plants by using one tube, thereby improving user convenience.

Fourth, the inner space of the pot body can be easily partitioned, so that plants can be planted in the upper space and drip trays can be installed in the lower space, thereby improving the overall appearance.

1 is an exploded perspective view of a pot according to an embodiment of the present invention.
2 is a schematic cross-sectional view of the flower pot shown in FIG. 1.
3 is an exploded perspective view showing a coupling relationship between the partition plate and the water supply means shown in FIG.
4 is a perspective view showing the characteristics of the tube shown in FIG.
5 is an exploded perspective view of a pot according to another embodiment of the present invention.
Figure 6 is an exploded perspective view of a pot according to another embodiment of the present invention.
7 is an exploded perspective view of a pot according to another embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 to 4 are shown a pot 100 according to an embodiment of the present invention. The pot 100 includes a pot body 110, a partition plate 140, a drip tray 120, and a water supply unit 130. The pot body 110 has a cylindrical structure with a larger cross-sectional area toward the top, and has an open top structure so that soil (S) is introduced into the top and the plant (P1) is planted. In addition, the bottom surface 117 of the pot body is blocked. On the inner surface of the pot body 110, the stepped 118 is integrally formed along the horizontal circumferential direction. However, the bump 118 may be formed as a separate member.

The partition plate 140 is seated on the bullet 118. The inner space of the pot body 110 is partitioned into the upper space 111 and the lower space 112 by the partition plate 140. Soil (S) is injected into the upper space 111, the plant (P1) is planted. The partition plate 140 is formed of a plastic material or a metal material, and has a circular plate structure. An insertion hole 142 is formed at the center of the partition plate 140. In addition, the drainage holes 141 are formed along the circumferential direction with the insertion hole 142 as the center.

In the pot body 110, a portion corresponding to the lower space 112 is formed with a dive hole 121. The drip tray 120 may be stored and withdrawn into the lower space 112 through the drip hole 121.

The water supply means 130 includes a tube 131, an osmotic communication member 133, and a flange portion 132. The tube 131 has a hollow formed therein and is inserted into and inserted into the insertion hole 142. The tube 131 is formed of a flexible material to bend in the lateral direction of the pot body 110. For example, the tube 131 is formed of a plastic material.

The osmotic communication member 133 is inserted through the tube 131. The osmotic communication member 133 has a structure of cloth, microfiber, or the like, and has a structure that can be expanded outside the tube 131. The osmotic communication member 133 is formed of natural fibers or chemical fibers, but the present invention is not limited thereto.

The lower portion 133b of the osmotic communication member extends to the lower portion of the tube 131 and is wetted with water W stored in the drip tray 120. In addition, the upper portion 133a of the osmotic pressure communicating member is extended while being exposed to the upper portion of the tube 131 and is formed to surround the root 11 of the plant that is planted in the pot body 110.

The flange portion 132 is fitted to the tube 131. The flange portion 132 prevents the tube 131 from falling downward from the insertion hole 142. The flange portion 132 may be formed integrally with the tube 131, but is formed as a separate member to easily manipulate a portion of the tube 131 fitted into the insertion hole 142.

Slits 131a are formed in the tube 131 along the length direction. The slits 131a are for controlling the length of the tube 131 by the user, and the user may easily cut the tube 131 using the slit 131.

Hereinafter, the method of using the pot 100 will be described in detail.

First, the water supply means 130 is installed on the partition plate 140. Then, the partition plate 140 is seated on the step 118 of the flower pot body 110. At this time, the lower portion of the osmotic communication member 133 is allowed to span the lower surface of the drip tray 120.

Thereafter, the soil is filled with a predetermined depth S from the lower portion of the upper space 111. At this time, the osmotic communication member 133 prepares a plant P1 to be planted in the flower pot 100, and places the plant P1 on the soil S. The upper portion 133a of the osmotic pressure communicating member is unfolded to surround the root 11 of the plant. If the distance between the upper portion 133a of the osmotic communication member and the lower portion of the root 11 is not appropriate, the relative distance is adjusted by raising or lowering the tube 131. In addition, when the position of the root 11 is out of the center of the pot body 110, the tube 131 may be bent to the side to be installed. Then, by refilling the soil (S) in the upper space 111, to fix the plant (P1) to the soil (S). In this way, the moisture supply means 130 can easily surround the root 11, there is an effect that the user's work is easy.

After planting the plant (P1) in the pot 100, water the pot (100). Some of the water is kept in the soil, and the rest is stored in the drip tray 120 through the drain holes 141. Since the water W stored in the drip tray 120 is supplied to the vicinity of the root 11 through the osmotic pressure communicating member 133 by osmotic pressure, the plant P1 may receive smooth moisture. In particular, since the root 11 is supplied with water as a whole, the growth of the plant P1 is promoted. In addition, since the user does not need to discard the water W of the drip tray to the outside, inconvenience of the user is reduced. Moreover, even if the user does not water the pot 100 for a long time, the plant P1 can be grown.

5 is shown a pot 200 according to another embodiment of the present invention. The following description will focus on differences from the above-described embodiments.

The pot 200 includes a pot body 210, a partition plate 240, a drip tray 220, and a water supply unit 230. The lower surface 217 of the plant pot body 210 is blocked, and the step 218 is integrally formed along the horizontal circumferential direction on the inner circumferential surface of the side surface 216 of the plant pot body 210.

The partition plate 240 is seated on the step 218. An insertion hole 242 is formed at the center of the partition plate 240. In addition, the drainage holes 241 are formed along the circumferential direction with the insertion hole 242 as the center.

The drip tray 220 is installed in the drip hole (not shown) of the pot body 210. Water (W) is stored in the drip tray 220.

The water supply means 230 includes a tube 231 and an osmotic communication member 233. The tube 231 is inserted into and inserted into the insertion hole 242. The upper portion 231b of the tube is wider in the width direction than the center portion 231a. The osmotic communication member 233 is inserted into the tube 231. The lower portion 233b of the tube is wetted with the water (W). Since the upper portion 231b of the tube is wide, the upper portion of the osmotic communication member 233 is branched into two 233a and 233c to surround each root 21 and 22 of two plants planted in the soil. Therefore, since the water supply means 230 surrounds the plurality of roots 21 and 22, respectively, it is possible to stably supply water to each root, thereby enabling the growth of a plant through each root. The action of the water supply means 230 is similar to the action of the water supply means 130 described above, a detailed description thereof will be omitted.

However, the present invention is not limited thereto. That is, the osmotic pressure communicating member 133 may be branched into a plurality of upper portions of the tube 131 illustrated in FIG. 1. In addition, a plurality of water supply means 130 shown in Figure 1 may be installed in the partition plate 140, it is possible to supply the water to each corresponding root.

6 shows a pot 300 according to another embodiment of the present invention. The following description will focus on differences from the above-described embodiments. The pot 300 includes a pot body 310, a pot stand 350, a drip tray 320, and a water supply unit 330.

The pot body 310 is open at the top so that the plant (P3) is planted to the top. The pot stand 350 supports the pot body 310 from the bottom. The drip tray 320 is arranged to be accommodated and withdrawn into the inner space of the plant pot stand 350.

The water supply means 330 includes a tube 331, an osmotic communication member 333 and a flange portion 332. Drainage holes 311a and 352 are formed on the bottom surface of the pot body 310 and the pot stand 350, respectively. In addition, a communication hole 351 is also formed in the pot stand 350. One of the drain holes 311a of the plant body 310 and the communication hole 351 are aligned in the vertical direction. The tube 331 is hollow, and is inserted through the drainage hole 311a and the communication hole 351 continuously. The flange portion 332 prevents the tube 331 from escaping downward.

The osmotic pressure communicating member 331 is inserted through the tube 331. The lower portion 333b of the osmotic pressure communicating member is soaked in the water W in the drip tray 320, and the upper portion 333a extends to surround the root 31 of the plant planted in the soil S. Accordingly, the osmotic pressure communicating member 333 supplies water W in the drip tray 320 to the vicinity of the root 31 by osmotic pressure. The action of the water supply means 330 is similar to the water supply means 130 of the above-described embodiment, a detailed description thereof will be omitted.

7 is a pot 400 according to another embodiment of the present invention is shown. The following description will focus on differences from the above-described embodiments.

The pot 400 includes a pot body 410, a partition plate 440, a drip tray 420, a water reservoir 460, and a water supply unit 430. The lower surface 417 of the pot body 410 is blocked, and the inner step of the pot body 410 is stepped 418 integrally formed along the horizontal circumferential direction.

The partition plate 440 is seated on the step 418. An insertion hole 442 is formed at the center of the partition plate 440. Also, drain holes 441 are formed along the circumferential direction around the insertion hole 442.

The drip tray 420 is installed in the drip hole (not shown) of the pot body 410. Water W1 is stored in the drip tray 420. The water reservoir 460 is installed separately from the pot body (410). The water reservoir 460 includes a body 462 and a cover 461 for storing the water (W2) therein.

The water supply means 430 includes a tube 431, a flange portion 432, and an osmotic communication member 433. The tube 431 has a hollow structure and is inserted into and inserted into the insertion hole 442. The tube 431 extends through the side communication hole 416 a formed at the side of the pot body 410 and the body communication hole 462 a formed at the side of the body 462.

The osmotic communication member 433 is inserted through the tube 431. The lower portion 433b of the tube is wetted with the water W2. The upper portion 433a of the osmotic communication member is expanded to surround the root 41 planted in black. Therefore, the supply of water to the root 41 through the osmotic communication member 430 is facilitated, the stable growth of the plant is possible. The action of the water supply means 430 is similar to the action of the water supply means 130 described above, a detailed description thereof will be omitted.

In the present embodiment, the drip tray 420 is installed below the pot body 410, but the present invention is not limited thereto. That is, as shown in Figure 5, the planter pedestal and the drip tray may be separately installed below the planter body. In addition, the water supply means may have a structure for supplying water to each of the roots of a plurality of plants installed in one pot, the water supply means may have a structure for supplying water to a plurality of pollen at the same time. .

Although the present invention has been described with reference to the embodiments illustrated in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention should be defined by the technical spirit of the appended utility model claims.

100, 200, 300, 400: flowerpot
110, 210, 310, 410: planter body
120, 220, 320, 420: drip tray
130, 230, 330, 430: water supply means
131, 231, 311, 431: tubes
133, 233, 333, 433: osmotic communication member

Claims

Pot body which is open at the top so that the plant is planted to the top;
A partition plate seated at a set height inside the pot body and partitioning an inner space of the pot body into an upper space and a lower space, into which the soil and the plant are put;
A drip tray configured to be accommodated and drawn out into the lower space through a drip hole formed in a side surface of the fired body corresponding to the lower space; And
A hollow tube communicatively coupled to an insertion hole formed in the center portion of the partition plate, extending through the tube, the lower part is soaked in water in the drip tray, and the upper part surrounds the root of the plant planted in the pot body Extends so as to surround the outer circumferential surface of the tube by osmotic pressure supply member to supply water in the drip tray to the vicinity of the root by osmotic pressure, and a flange portion which prevents the tube from falling downward from the insertion hole. Pots containing means for hydration.

delete

The method according to claim 1,
Steps are integrally formed on the inner surface of the pot body, so that the partition plate is seated on the step,
The partition plate is a pot that is formed with a drain hole for flowing water in the upper space to the drip tray.

The method according to claim 1,
The tube is inserted into the insertion hole so that the insertion depth is adjustable, is formed of a flexible material to bend laterally in the upper space,
The osmotic communication member is a pollen formed of a natural fiber or a chemical fiber material.

The method according to any one of claims 1, 3 or 4,
The upper portion of the tube is formed in a width direction wider than the center portion, so that the upper portion of the osmotic pressure communication member is divided into a plurality of plants to surround each of the plurality of roots.

Pot body which is open at the top so that the plant is planted to the top;
A planter pedestal for supporting the planter body from below;
A drip tray disposed to allow storage and withdrawal into the inner space of the plant pot holder; And
The hollow tube is inserted into the drainage hole formed in the bottom surface of the plant body and the communication hole of the planter base in common, extends through the tube, the lower portion is soaked in water in the drip tray and the upper portion of the planter body An osmotic communication member extending to enclose the root of the plant planted to supply water in the drip tray to the vicinity of the root by osmotic pressure, and arranged to surround the outer circumferential surface of the tube so that the tube falls downward from the insertion hole. Pots including water supply means having a flange portion to prevent.

Pot body which is open at the top so that the plant is planted to the top;
A partition plate seated at a set height inside the pot body and partitioning an inner space of the pot body into an upper space and a lower space, into which the soil and the plant are put;
A water reservoir separated from or separated from the pot body;
One end is inserted through the insertion hole formed in the center portion of the partition plate and the other end passes through the side communication hole formed on the side corresponding to the lower space of the pot body and the body communication hole formed on the side of the water reservoir, respectively. Hollow tube extending through the tube, extending through the tube and the lower end is soaked in the water in the water reservoir and the upper end is extended to surround the root of the plant planted in the pot body so that the water in the water reservoir by osmotic pressure And a water supply means having an osmotic pressure communication member for supplying it to the vicinity of the root, and a flange portion disposed to surround the outer circumferential surface of the tube to prevent the tube from falling out from the insertion hole.