KR200486572Y1

KR200486572Y1 - Flowerpot

Info

Publication number: KR200486572Y1
Application number: KR2020150007241U
Authority: KR
Inventors: 김재순; 정명일; 한승원; 정나라
Original assignee: 대한민국
Priority date: 2015-11-09
Filing date: 2015-11-09
Publication date: 2018-06-12
Also published as: KR20170001710U

Abstract

The pollen is started. The pot according to one embodiment of the present invention comprises a planting space filled with soil; A water absorption space in which the water absorbent is accommodated; A moisture storage space for storing moisture absorbed by the moisture absorption space; And a wick for supplying moisture stored in the moisture storage space to the planting space.

Description

Flower pots {FLOWERPOT}

The present invention relates to pollen prepared to automatically supply water using the moisture in the atmosphere.

One of the biggest influences on plant growth is moisture. Therefore, it is important to ensure irrigation facilities in the farms where the plant grows so that there is no problem in the cultivation of the crops.

Recently, efforts have been made to reduce the time and labor force of watering work, and there is a method of collecting moisture in the air and supplying it to plants.

Korean Patent No. 10-1388951 discloses an irrigation system that supplies water to plants using moisture in the air.

Korean Patent No. 10-1388951

However, the irrigation system disclosed in the above publication adopts a system in which atmospheric air is first sucked in order to generate water used for irrigation, it is cooled by an evaporator, and then is condensed by a condenser again. There is a problem in that the cost for ensuring the irrigation facilities is increased.

Embodiments of the present invention are designed to increase the efficiency of irrigation work on plants and provide flower pots that can reduce the capital investment while utilizing atmospheric moisture.

According to an aspect of the present invention, there is provided an upper container in which an inner space forms a planting space for filling soil; A lower container separating the upper space and the lower space to form a water-absorbing space, a lower space forming a moisture storage space, and a lower space capable of passing moisture between the upper space and the lower space, A granular water absorbent configured to contain a deliquescent material for absorbing moisture in the air to produce water and being accommodated in the water absorbing space; A vent hole formed in the upper sidewall of the lower container corresponding to the water absorbing space so that the surrounding air can flow into the water absorbing space and be in contact with the water absorbing material; A core for supplying moisture stored in the moisture storage space to the planting space; And a water absorbing space for storing moisture in the water absorbing space by the water absorbent so as to be stored in the moisture storing space and for preventing the water absorbing material from flowing into the moisture storing space, And a partition plate partitioning the space into a state in which moisture can pass through the space.

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A first wick through hole is formed in the bottom of the upper container bottom, and a second wick hole is provided in the partition plate.

The pollen according to the embodiment of the present invention absorbs and stores the moisture in the air through the water absorbent and is directly supplied to the soil filled in the planting space by using the core, , Effectively reducing the cost of equipment investment due to the use of moisture in the atmosphere.

1 is an exploded perspective view of a pollen according to an embodiment of the present invention.
2 is an assembled cross-sectional view of the pot shown in Fig.
FIG. 3 is a perspective view showing a state in which plants are planted in the pollen of FIG. 1;
4 is a cross-sectional view of the pollen shown in Fig.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The following embodiments are provided to fully convey the idea of the present invention to a person having ordinary skill in the art to which the present invention belongs. The present invention is not limited to the embodiments shown herein but may be embodied in other forms. In order to clarify the present invention, it is to be understood that the drawings are not to scale, and the size of the components may be slightly exaggerated in order to facilitate understanding.

1 and 2, the pollen according to one embodiment of the present invention includes a planting space 10 in which soil is filled, a water-absorbing space 20 in which the water-absorbing agent 21 is accommodated, A water storage space 30 for storing moisture absorbed by the space 20 and a wick 40 for supplying the moisture stored in the water storage space 30 to the planting space 10.

The double planting space 10 may be provided through the inner space of the upper vessel 100. The upper container 100 may be provided in the form of a barrel which is open to the upper side.

The water absorption space 20 and the water storage space 30 may be configured through the lower vessel 200. The lower container 200 may also be provided in the form of a barrel opened upward and the upper portion of the lower container 200 may be detachably coupled to the bottom of the upper container 100.

The upper and lower containers 100 and 200 may be detachably coupled through a screw.

Alternatively, the upper vessel 100 may be simply stacked on the lower vessel 200. Also, the upper container 100 can be assembled to the upper portion of the lower container 200 in a simple fitting manner.

The water-absorbing space 20 may be provided through the upper space of the lower container 200. The water absorbent (1) filled in the water absorbing space (20) can be prepared through various decomposable substances which can be used for moisture and dehumidification such as calcium chloride and silica gel. Such a water absorbent (1) is provided in the form of granules to change the moisture into water.

The water storage space 30 may be provided through the lower space of the lower container 200 and the water storage space 30 and the water absorption space 20 may be partitioned into a state capable of passing water. The supporting part 201 may protrude from the inner wall of the lower vessel 200 and the supporting part 201 may be provided with a metal mesh 209 for partitioning the water storage space 30 and the water absorbing space 20 into water- Shaped partition plate 50 can be mounted.

A plurality of ventilation holes 202 may be formed in the upper sidewall of the lower container 200 corresponding to the moisture absorbing space 20. The air around the pollen is introduced into the water absorbing space 20 through the vent hole 201 and changed into water through the water absorbent 1. This water is supplied to the water storage space 30).

A first wick passage hole 101 is formed in the bottom of the bottom of the upper container 100 and a second wick passage hole 51 is provided in the partition plate 50.

Therefore, the wick 40 can be extended to the planting space 10 and the lower end can extend to the water storage space 30 in a state where the wick 40 is sandwiched between the first and second wick holes 101 and 51.

FIGS. 3 and 4 show the structure of pots in which plants are planted by filling soil in the planting space 10 in a state where the upper and lower vessels 100 and 200 are assembled.

In this state, the surrounding air is absorbed into the water-absorbing space 20 through the vent hole 202 to be converted into water, and the converted water passes through the partition plate 50 to the moisture storage space 30 at the bottom And the moisture in the water storage space 30 is supplied to the planting space 10 through the water absorbing function of the wick 40 to be supplied to the planted plant.

The water absorbing space 20 and the water storage space 30 are separately provided. However, the moisture absorbing space 20 and the water storage space 30 may be separately provided, When the bottom portion and the planting space 10 are directly connected to each other, the water storage space 30 can be omitted.

1: water absorbent 10: planting space
20: water absorption space 30: water storage space
40: core 50: partition plate
51: second core hole 100: upper container
200: Lower container

Claims

An upper container in which an inner space forms a planting space for filling soil;
A lower container separating the upper space and the lower space to form a water-absorbing space, a lower space forming a moisture storage space, and a lower space capable of passing moisture between the upper space and the lower space,
A granular water absorbent configured to contain a deliquescent material for absorbing moisture in the air to produce water and being accommodated in the water absorbing space;
A vent hole formed in the upper sidewall of the lower container corresponding to the water absorbing space so that the surrounding air can flow into the water absorbing space and come into contact with the water absorbing material;
A core for supplying moisture stored in the moisture storage space to the planting space; And
Wherein the moisture absorbent is configured to store moisture formed in the moisture absorbing space in the moisture storage space and to prevent the moisture absorbent from flowing into the moisture storage space, And a partition plate for partitioning the space between the partition plate and the partition plate such that moisture can pass through the partition plate.

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The method according to claim 1,
A first wick through hole is formed in the bottom of the bottom of the upper container,
And the second wick through-hole is provided in the partition plate.

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