KR101835770B1 - Flower pot assembly - Google Patents

Abstract

The present invention relates to a pollen assembly, and more particularly to a pollen assembly capable of continuously supplying water to plants and forming a heat insulating space around the plant.
The pollen assembly of the present invention has a divided structure and is easy to install and transport and forms a heat insulating space around a planting container or a water tank to reduce heat loss or heat input due to external temperature change, There is an advantage that the environment can be maintained.
In addition, the pollen assembly of the present invention is advantageous in that space efficiency can be improved by arranging various kinds of plants in one space by providing individual planting spaces.

Description

Flower pot assembly

The present invention relates to a pollen assembly, and more particularly to a pollen assembly capable of continuously supplying water to plants and forming a heat insulating space around the plant.

In general, potted plants are planted in plants such as flowers and small trees, and they are used inside buildings or outdoors.

These pots can be used to create beautiful indoor and outdoor designs, or to make the surrounding vegetation a pleasant environment.

However, the pollen installed for the outdoor aesthetics such as the roadside or the public facilities is arranged at a predetermined interval in a large area, and therefore, a considerable labor force is required because the watering for the growth of vegetation in each flowerpot must be performed by hand.

In order to solve the above-mentioned problem, the detachable water-pollen pot for environmental beautification disclosed in the Korean Utility Model Registration Utility Publication No. 20-0420135 is formed with a water tank having a certain depth in a receiving part mounted on the lower part of the plant material, And the osmotic wick is inserted into the slit hole formed in the slit hole to absorb the water stored in the water tank and to make the bottom surface irrigation with the plant material.

However, since the above-mentioned pollen is exposed to the outside of the plant where the environment favorable for growth can not be established, there is a problem that the water supply interval and the temperature can not be adjusted properly according to the growth condition of the plant, There is a difficulty in this.

In addition, since most of the flower pots installed in the outdoors, such as the flower pots for eco-friendly marble roads disclosed in Korean Patent Registration No. 10-1501206, are bulky and heavy in weight, they are not easily transported.

Generally, a single plant is grown by planting only a single plant, which is disadvantageous in that space efficiency is deteriorated by arranging a plurality of pollen arranged on a roadside or an air facility for various purposes.

Registered Utility Model No. 20-0420135 of Korea Registered Separate Hydroponics for Environment Beautification Korean Registered Patent No. 10-1501206: Green artificial marble pollen for roads

It is an object of the present invention to provide a pollen assemblage which can be combined and separated by a divided structure and which forms a heat insulating space around a plant.

Another object of the present invention is to provide a potting compartment capable of planting various kinds of plants in one space by providing a planting container having an individual planting space.

In order to achieve the above object, a pollen assembly according to the present invention comprises: a planting container having an open upper part and a planting space formed therein; and a fresh water space provided below the planting material container, An osmotic pressure member mounted on a through hole formed to communicate with the planting space of the planting container and extending to the fresh water space to lift water stored in the fresh water space into the planting space; And a cover unit mounted on the outer periphery of the tank unit so as to be spaced apart from the outer circumference of the tank unit and configured to form a heat insulating space around the planting tank and the water tank unit to prevent heat transfer against external temperature changes.

The water tank portion is formed to protrude from the bottom surface in the direction of the food preparation vessel so as to cross the fresh water space and to be connected to the lower portion of the planting container and to have a ventilation space communicating with the ventilation hole formed in the bottom of the planting container do.

Wherein the cover unit includes a plurality of side covers arranged to surround the planting container and the water tank part so as to be spaced apart from the outer circumferential surface of the planting tank and the water tank part, A plurality of side cover connecting members to be connected to the upper end of the side cover and an upper end of the side cover connecting member in an opened shape mounted on an upper edge of the planting container, And a base support portion coupled to a lower end of the side cover and a lower end of the side cover connection member and supporting the water tank portion.

And a water level measuring member that is detachably mounted on the upper cover and extends to the fresh water space of the water tank portion to measure a water level of the water tank portion.

According to another aspect of the present invention, there is provided a food container comprising: a plurality of food preparation containers each having an open top and a food preparation space formed therein, a plurality of support members protruding upward and having through holes communicating with the planting space, A water tank part provided below the planting unit and having a first fresh water space in which the tray is accommodated and can be filled with water, A plurality of osmotic members extending from the planting space to the first fresh water space and lifting water stored in the first fresh water space into the planting space; The water tank is divided into a plurality of divided spaces, And a cover unit.

Wherein the cover unit includes a plurality of side covers arranged to surround the water tank portion so as to be spaced apart from the outer circumferential surface of the water tank portion and a plurality of side cover connecting members positioned between the side covers, An upper cover coupled to an upper end of the side cover and an upper end of the side cover connecting member respectively in an opened shape mounted on an upper rim of the water tank portion and a lower cover coupled to a lower end of the side cover and a lower end of the side cover connecting member And a base receiving part for supporting the water tank part.

A second fresh water space that is mounted below the water tank and opens at an upper portion to receive water and is formed to protrude from the bottom surface in the direction of the first fresh water space to cross the second fresh water space, And an auxiliary tank portion having a partition wall portion coupled with the lower portion.

The water tank portion has an overflow slot that is cut at one side so that water can be supplied only to a predetermined height in the first fresh water space, and water supplied at a predetermined height or higher flows into the second fresh water space.

The pollen assembly of the present invention has a divided structure and is easy to install and transport and forms a heat insulating space around a planting container or a water tank to reduce heat loss or heat input due to external temperature change, There is an advantage that the environment can be maintained.

In addition, the pollen assembly of the present invention is advantageous in that space efficiency can be improved by arranging various kinds of plants in one space by providing individual planting spaces.

1 is a perspective view of a pollen assembly according to an embodiment of the present invention,
Figure 2 is a partially exploded perspective view of the pollen assembly applied to Figure 1,
Figure 3 is a cross-sectional view of the pollen assembly applied to Figure 1,
Fig. 4 is a perspective view of the water inlet applied to Fig. 1,
Figure 5 is a perspective view of a pollen assembly according to another embodiment of the present invention,
FIG. 6 is a perspective view of a pollen unit applied to FIG. 5,
Figure 7 is a cross-sectional view of the pollen assembly applied to Figure 5,
FIG. 8 is a cross-sectional view of a pollen unit and an osmotic member applied to FIG. 5,
Fig. 9 is a perspective view of the water tank portion applied to Fig. 5,
Figures 10 and 11 are perspective views of a pollen assembly in accordance with further embodiments of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

1 is a perspective view of a pollen assembly 1 according to an embodiment of the present invention, Fig. 2 is a partially exploded perspective view of a pollen assembly 1 applied to Fig. 1, Fig. 3 is a perspective view of a pollen assembly 1 And Fig. 4 is a perspective view of the water inlet applied to Fig. 1. Fig.

The pollen assembly according to an embodiment of the present invention includes a planting vessel 10, a water tank 20, an osmotic member 30, a cover unit 100, and a water level measuring member 40.

The planting vessel 10 is a portion having an open top and a planting space 11 communicating with an open top.

The planting vessel 10 receives the soil and plants into the planting space 11 through the open top.

The planting vessel 10 is provided with a plurality of first through holes 13 through which the osmotic member 30 penetrates from the bottom to the planting space 11 and which will be described later and a ventilation space 27 communicating with the ventilation space 27 of the later- A hole 15 is formed.

Although not shown, the ventilation hole 15 is equipped with a mesh-shaped wire netting that allows water to pass through but blocks the soil.

A top cover engaging portion 17 protruding outward from the outer circumferential surface of the planting container 10 and extending along the circumferential direction and having an end extending downward is formed to be engaged with a top cover 110 described later .

The food container 10 can be made of various materials, but it is preferably made of an eco-friendly material such as a coir, which is obtained from fruit of Kokos Yaya.

The water tank portion 20 is a portion provided below the food preparation vessel 10 and having an open upper portion to form a fresh water space 21 capable of holding water.

The water tank portion 20 has a partition wall portion 25 protruding from the center of the bottom surface to cross the fresh water space 21 in the direction in which the planting container 10 is located.

The partition wall portion 25 has a hollow prismatic shape with an upper portion closed and a lower portion open.

The partition wall portion 25 is opened so that the lower portion communicates with the internal space, thereby forming the ventilation space 27.

The upper portion of the partition wall portion 25 is engaged with the lower portion of the planting container 10 and the upper portion thereof is formed with a second through hole 26 communicating with the ventilation space 27.

The ventilation holes 15 coincide with the second through holes 26 when the planting container 20 is engaged with the partition walls 25 of the water tank portion 20 so that the planting space 11 and the ventilation space 27 coincide with each other. Respectively.

The osmotic member 30 is installed in the first through hole 13 formed to communicate with the planting space 11 and extends to the fresh water space 21 to draw water stored in the fresh water space 21 into the planting space 11 Section.

The osmotic member 30 preferably uses a nonwoven fabric, but is not limited as long as it is a material that can draw water in the fresh water space into the planting space.

The cover unit 100 is a portion which is mounted so as to be spaced from the outer circumferential surface of the food container 10 and the water tank portion 20 so as to form a heat insulating space around the food container 10 and the water tank portion 20.

The cover unit is a divisible structure and forms the external shape of the pollen assembly according to the present invention.

The cover unit 100 includes an upper cover 110, a side cover 120, a side cover connecting member 130, and a base receiving portion 140.

The side cover 120 is arranged in the four directions so as to surround the planting container 10 and the water tank 20 so as to surround the planting container 10 and the water tank 20 at a predetermined distance from the outer circumferential surface of the planting tank 10 and the water tank 20, Respectively.

The four side covers 120 are arranged in four directions so as to be perpendicular to each other with the food container unit 10 and the water tank unit 20, which are vertically coupled, inside.

The plurality of side covers 120 extend upward and downward so as to cover the food container 10 and the water tank 20, respectively.

The plurality of side covers 120 extend laterally to the left of the food container 10 and the water tank 20 and are spaced apart from the food container 10 and the water tank 20, And are coupled to each other through the side cover connecting member 130.

The side cover 120 is formed with first and second engaging portions 121 and 125 which can be coupled to each other in a direction perpendicular to the left end portion and the right end portion.

A plurality of first cut-out portions 123 are formed at the upper ends of the first coupling portions 121 to form a first protruding portion 124 protruding between the first cut-out portions 123 .

The second engaging portion 125 has a second protrusion 127 formed at a position corresponding to the first discontinuous portion 123 which is spaced apart from the first protrusion 127 by a predetermined distance, A second cut-off portion 129 is formed.

The side covers 120 adjacent to each other are inserted into the first cut-out portion 123 with the second projection 127 and the first projection 124 inserted into the second cut-out portion 129, So that they are mutually orthogonal to each other in the lateral direction.

The plurality of side cover connecting members 130 are positioned between the side cover 120 and the side cover 120 to couple the side covers 120 to each other so that the first and second engaging portions 124, 125 in the direction of the arrow.

The side cover connecting member 130 has a shape corresponding to a length of the side cover 120 extending up and down.

 Although not shown, the side cover connecting member 130 is formed with a plurality of second engaging projections that can engage with respective side surfaces of the first engaging portion 121 and the second engaging portion 125, respectively, A plurality of second coupling grooves into which the second coupling protrusions can be inserted are formed in the first coupling portion 121 and the second coupling portion 125.

The side cover 120 positioned on both sides of the side cover connecting member 130 may be connected to the first connecting portion 121, the second connecting portion 125, The present invention is not limited to the second coupling protrusions, and may be applied to a structure in which a plurality of side covers 120 can be coupled at right angles to each other in the lateral direction.

The upper cover 110 is connected to the upper end of the side cover 120 and the upper end of the side cover connecting member 130 in an opened shape mounted on the upper edge of the planting container 10, 115 are provided.

The opened shape of the upper cover 110 corresponds to the cross-section of the upper end of the planting vessel 10.

The inner circumferential surface formed by opening the upper cover 110 is downwardly inclined downward toward the opened inner side, and the lower end of the inner circumferential surface is formed with the upwardly raised food container coupling portion 117.

Is joined to the food container coupling portion 117 and the upper cover coupling portion 17 of the food container 10 when the upper cover 110 and the food container 10 are coupled.

Grooves (not shown) are formed at an outer lower end of the upper cover 110 so that the upper ends of the side cover 120 and the side cover connecting member 130 can be engaged.

The water injecting part 115 is formed inside the upper cover 110 and has a third through hole 116 in the up and down direction to supply water to the fresh water space of the water tank part 20.

As shown in FIG. 4, a cap 118 capable of opening and closing the water injection unit 115 may be provided.

When water is supplied to the water injecting unit 115, the water is stored in the fresh water space 21 of the water tank unit 20 through the space formed between the planting vessel 10 and the side cover 120.

The base receiving portion 140 is a plate-shaped portion that supports the water tank portion 20 at a lower portion and is coupled to the lower end of the side cover 120 and the lower end of the side cover connecting member 130.

A fifth through hole 141 communicating with the ventilation space 27 is formed at the center of the base receiving portion 140 when the water tank 20 is coupled with the water tank 20.

A plurality of grooves 142 are formed on the upper end surface of the base portion receiving portion 140 so as to be coupled to the side cover 120 and the side cover connecting member 130 along the rim.

The cover unit 100 constitutes the outer shape of the pot assembly 1. The side cover 120 and the side cover connecting member 130 are spaced apart from the outer circumferential surface of the food container 10 and the water tank 20 And a heat insulating space 50 is formed around the planting tank 10 and the water tank 20 to block heat transfer to the external temperature change.

The water level measuring member 40 is detachably attached to the upper cover 110 and extended to the water tank portion 20 to measure the water level of the water tank portion 20. [

The level measuring member 40 passes through a fourth through hole (not shown) formed in the direction of the fresh water space 21 in the upper cover 110, and the upper portion is mounted on the upper cover 110.

The level measuring member 40 extends to the fresh water space 21 through the heat insulating space 50.

The user observes the position of the water on the lower end of the water level measuring member 40 and measures the water level of the water tank 20.

The pollen assembly 1 according to an embodiment of the present invention as described above has a structure in which soil and plants are planted in a planting vessel 10 and water is injected through a water injecting unit 115 formed in the upper cover 110 Water is stored in the fresh water space 21 of the water tank 20.

3, the water stored in the water tank portion 20 is absorbed into the planting space 11 of the planting container 10 through the osmotic member 30, and water is supplied to the roots of the planted soil and the plant.

By supplying water to the osmotic member 30, it is possible to continuously supply sufficient water to the plant without watering for a long period of time.

The water level of the water tank 20 can be determined by the user separating the water level measuring member 40 mounted on the upper cover 110 and checking the water on the end of the water level measuring member 40.

The heat insulating space 50 formed between the cover unit 100 and the food preparation vessel 10 and the water tank unit 20 can prevent heat transfer or slow down the external heat transfer, , So that the environment suitable for growth can be sustained for a long time.

The pollen assemblies 1 according to the embodiment of the present invention are arranged in a ventilation space 27 formed by the ventilation holes 15 of the planting container 10 and the partition walls 25, The through holes 141 are communicated with each other, so that the air supplied to the soil and the plants planted in the planting space 11 is circulated and the water supplied into the planting space 11 can be drained without being decayed.

Although not shown, the pollen assemblies 1 may be provided with a discharge valve at the bottom of the water tank 20 for discharging old water stored in the fresh water space 21. At this time, a discharge valve (not shown) may be applied to protrude outside the side cover 120 through the side cover 120.

The pollen assembly 1 according to the present invention is a dividable structure that is easy to install and transport and forms a heat insulating space around the planting container 10 or the water tank portion 20 so that heat loss or heat There is an advantage of being able to maintain a favorable environment for plant growth by reducing inflow.

In addition, since the pollen assembly according to the present invention continuously supplies water to the bottom surface through the osmotic pressure member, water is not supplied to the fresh water space for a long period of time, which is advantageous in terms of management and cost.

5 to 9, a pollen assembly 2 according to another embodiment of the present invention is shown.

FIG. 5 is a perspective view of a pollen assembly 2 according to another embodiment of the present invention, FIG. 6 is a perspective view of a planting unit applied to FIG. 5, FIG. 7 is a sectional view of a pollen assembly applied to FIG. 5 is a cross-sectional view of a pollen unit and an osmotic pressure member applied to Fig. 5, and Fig. 9 is a perspective view of a water tank portion applied to Fig.

The pollen assembly 2 according to another embodiment of the present invention includes a planting unit 200, a water tank part 320, an osmotic pressure member 30, an auxiliary tank part 400, a cover unit 100, A member 341, and a second level gauge member 342.

The planting unit 200 includes a plurality of planting containers 210 and a tray 220 for supporting the planting containers 210 from below.

The planting container 210 is opened at an upper part thereof and a planting space 211 is formed therein.

A first through hole 213 is formed in the bottom surface of the planting container 210 in a vertical direction.

The food preparation container 210 may be made of various materials, but is preferably made of an eco-friendly material such as a coir, which is obtained from fruit of Kokos Yaya.

Although not shown, a second through hole (not shown), which is ventilation and drainage means, may be formed on the bottom surface of the planting container 210 in addition to the first through hole 213.

The diameter of the food preparation container 210 is smaller than the diameter of the tray 220 described later so that a plurality of the food preparation containers 210 can be mounted on the upper surface of the tray 220 described later.

The tray 220 is formed to correspond to the cross-sectional shape of the water tank portion 320 described later as a plate member for supporting the planting container 210 from below.

The tray 220 has a plurality of sixth through holes 223 formed at predetermined intervals and includes a grip portion 221 and a plurality of support members 225.

The sixth through-hole 223 functions as a vent for circulating air and serves as a passage for discharging rainwater or water to be supplied to the first fresh water space 321 of the water tank 320 described later.

The grip portion 221 is formed at one end and the other end of the tray 220 and is a portion formed to facilitate transportation of the tray 220 or detachment from the water tank portion 320 described later.

The plurality of support members 225 are formed to protrude upward from the upper surface of the tray 220 by a predetermined distance, and a sharp tip portion 226 is formed at the upper portion to narrow the diameter toward the upper end.

The support member 225 is formed with a through-hole 227 which is opened downward and empty in the inner space and cut in the form of a slot in the outer circumferential surface to communicate with the inner space.

The plurality of support members 225 are inserted into the planting space 211 through the first through holes 213 of the planting vessel 210 to support the plurality of planting vessels 210 one by one.

The penetrating portion 227 according to an embodiment of the present invention is not limited as long as it penetrates into the inner space in the form of a long hole on the outer circumferential surface of the support member 225 or can be in communication with the planting space.

The water tank part 320 is provided below the planting unit 200, and a tray 220 is accommodated in an opened upper part thereof, and a first fresh water space 321 capable of containing water therein is formed.

Water is stored in the first fresh water space 321 of the water tank unit 320.

An upper cover engaging portion 327 protruding outward from the outer circumferential surface of the water tank portion 320 and extending along the circumferential direction and having an end extended downward to engage with the upper cover 110 described later is formed .

The planting unit 200 is mounted on the upper part of the water tank part 320 and is placed in contact with the upper part of the inner surface of the water tank part 320 so that the tray 220 is received in the upper part of the first fresh water space 321.

At this time, the tray 220 is received in the water tank portion 320 so that the upper end of the planting container 210 is lower than the upper end of the upper cover 110 described later.

The water tank portion 320 is cut at one side so that water can be supplied only to a predetermined height in the first fresh water space 321 and water supplied at a predetermined height or higher is supplied to the second fresh water space 421 of the auxiliary tank 400, And an overflow slot 329 for allowing the fluid to flow downward.

The overflow slot 329 is a portion for preventing the water from overflowing to the upper portion where the tray 220 of the water tank portion 320 is mounted.

The water supplied through the overflow slot 329 flows into the auxiliary tank unit 400 so that the water tank unit 320 can maintain a proper water level even if water is continuously supplied to the water tank unit 320.

The auxiliary water tank part 400 is a part provided below the water tank part and having a top open to form a second fresh water space 421 capable of holding water.

The auxiliary tank unit 400 has a partition wall portion 425 protruding from the center of the bottom surface to cross the second fresh water space 421 in the direction in which the water tank portion 320 is located.

The partition wall portion 425 is hollow and has a prismatic shape with the upper portion closed and the lower portion open.

The upper portion of the partition wall portion 425 is engaged with the lower portion of the water tank portion 321.

The plurality of osmotic members 30 are installed in the inner space of the support member 225 to extend from the planting space 211 to the first fresh water space 321 and to supply the water stored in the first fresh water space 321 to the planting space (211).

The cover unit 100 is installed apart from the outer circumferential surface of the water tank part 320 and the auxiliary tank part 400 to form a heat insulating space 50 around the water tank part 320 and the auxiliary tank part 400 .

The cover unit (100) is a part that forms a contour of the pollen assembly (2) with a dividable structure.

The cover unit 100 includes an upper cover 110, a side cover 120, a side cover connecting member 130, and a base receiving portion 140.

The side cover 120 is arranged in the four directions so as to surround the water tank part 320 and the auxiliary tank part 400 at a predetermined distance from the outer circumferential surface of the water tank part 320 and the auxiliary water tank part 400 Four.

The four side covers 120 are arranged in four directions so as to be perpendicular to each other with the water tank part 320 and the auxiliary water tank part 400 vertically coupled to each other.

The plurality of side covers 120 extend up and down to cover the water tank part 320 and the auxiliary tank part 400, respectively.

The plurality of side covers 120 may extend from the water tank 320 and the auxiliary tank 400 to a greater extent than the diameters of the water tank 320 and the auxiliary tank 400 and may be spaced apart from the water tank 320 and the auxiliary tank 400. And are coupled to each other through the later-described side cover connecting member 130.

The side cover 120 is formed with first and second engaging portions (not shown) which can be engaged with each other in a direction perpendicular to the left end portion and the right end portion which are in contact with each other.

The method of mutual coupling of the side covers and the side cover connecting member is the same as the combining method of the cover unit according to the embodiment of the present invention, and thus a detailed description thereof will be omitted.

The side cover connecting member 130 has a shape corresponding to a length of the side cover 120 extending up and down.

The upper cover 110 is coupled to the upper end of the side cover 120 and the upper end of the side cover connecting member 130 in an opened shape mounted on the upper edge of the water tank portion 320 and is connected to the second fresh water space 421 And a communicating water injection unit 115 is provided.

The opened shape of the upper cover 110 is a shape corresponding to the cross section of the upper end of the water tank portion 320.

The inner circumferential surface formed by opening the upper cover 110 is inclined downwardly toward the opened inside and the water tank tightly coupled portion 117 is formed at the lower end of the inner circumferential surface in an upwardly upward direction.

The upper cover 110 and the water tank portion 10 are coupled to the water tank portion 34 and the upper cover engaging portion 327 of the water tank portion 320 when the water tank portion 10 is engaged.

Grooves (not shown) are formed at an outer lower end of the upper cover 110 so that the upper ends of the side cover 120 and the side cover connecting member 130 can be engaged.

The water injecting part 115 is formed inside the upper cover 110 and has a third through hole formed in a vertical direction so as to supply water to the second fresh water space 421 of the auxiliary tank part 400 .

A cap 118, which can open and close the water injection unit 115, may be provided at the upper end of the water injection unit.

The base receiving portion 140 is a plate-shaped portion that supports the auxiliary tank portion 400 at a lower portion and is coupled to the lower end of the side cover 120 and the lower end of the side cover connecting member 130.

The cover unit 100 as described above forms the outer shape of the pot assembly 2 and the side cover 120 and the side cover connecting member 130 are separated from the outer peripheral surface of the water tank unit 320 and the auxiliary tank unit 400 And a heat insulating space 50 is formed around the water tank part 320 and the auxiliary tank part 400 to block heat transfer to the external temperature change.

The first level measuring member 341 is a portion penetrating through the tray in the vertical direction and extending to the first fresh water space 321 to measure the level of the water tank portion.

The second water leveling member 342 is detachably mounted vertically through the upper cover 110 and extends to the second fresh water space 421 to measure the water level of the auxiliary tank unit 400.

The pollen assembly 2 according to another embodiment of the present invention as described above can separate the tray 220 from the water tank 320 and directly supply the water to the water tank 320.

The pollen assembly 2 also supplies water to the upper surface of the tray 220 coupled with the water tank 320 to supply water to the water tank 320 through the sixth through hole 223 formed in the tray 220 It can also supply.

The water stored in the water tank part 320 flows into the planting space 211 of each planting container 210 through a plurality of osmotic members 30.

The pollen assemblies 2 according to the present invention can supply water to the auxiliary tank 400 through the water injecting part 115 provided in the upper cover 110 to lengthen the irrigation period of the pollen assemblies.

Although not shown in the drawing, a separate osmotic pressure member may extend from the food preparation vessel 210 to the second fresh water space 421 of the auxiliary tank unit 400 by bypassing the water tank unit 320 and may be connected to the auxiliary tank unit 400 A method of lifting the stored water up to the planting container 210 may be applied.

In addition, although not shown, the pot assemblies 2 are capable of discharging the water stored in the first and second fresh water spaces 321 and 329 below the water tank part 320 and the auxiliary tank part 400, respectively First and second discharge valves (not shown) may be provided. At this time, the first and second discharge valves (not shown) may be applied to protrude outside the side cover 120 through the side cover 120.

Since the planting container 210 of the pollen assembly 2 of the present invention is accommodated in the upper portion of the first fresh water space of the water tank 320, the influence of the external temperature change due to the heat insulating space formed by the cover unit Can be reduced.

The pollen assembly 2 according to another embodiment of the present invention can plant different kinds of trees or flowers for each planting container 210 through a plurality of planting containers 210 and can manage individual plants, There is an advantage.

10 and 11, the pollen assemblies 3 and 4 according to the present invention are not limited to the size and shape of the first and second embodiments of the present invention, Various sizes and shapes will be applicable.

Also, a method of referring to the planting unit 200 according to the second embodiment of the present invention may be applied to the pollen assembly according to the first embodiment of the present invention.

That is, the pollen assembly 1 according to the first embodiment of the present invention further includes a stopper (not shown) for blocking the first through-hole 13 and the ventilation hole 15 of the planting container 10, It is also possible to store water in the planting container 10 instead of soil and plants. By mounting the planting unit 200 according to the second embodiment of the present invention on the upper part of the planting vessel 10, the planting vessel 10 of the first embodiment of the present invention is connected to the water tank part 320).

The pollen assembly according to the present invention has a divided structure and is easy to install and transport, and a heat insulating space is formed around a planting container or a water tank to reduce heat loss or heat input due to external temperature change, There is an advantage in that it is possible to maintain a favorable environment.

In addition, the pollen assembly according to the present invention has an individual planting space and is advantageous in that space efficiency can be improved by planting various kinds of plants in one space.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. I will understand that. Accordingly, the scope of the true technical protection of the present invention should be determined by the technical idea of the appended claims.

1,2: pots assembly 10, 210: food container
11, 211: Planting space 20, 320: Water tank part
21: Fresh water space 25:
30: osmotic pressure member 40: level measuring member
50: Insulating space 100: Cover unit
110: upper cover 120: side cover
130: side cover connecting member 140: base receiving portion
200: planting unit 220: tray
225: support member 321: first fresh water space
329: overflow slot 400: auxiliary tank portion
421: Second fresh water space

Claims (8)

A planting unit including a plurality of planting containers having an upper portion opened and a planting space formed therein and a tray protruding upwardly and inserted into the planting container to provide a plurality of support members for supporting the planting container;
A water tank portion provided below the planting unit, the water tank portion having an opened upper portion in which the tray is accommodated and in which a first fresh water space capable of containing water is formed;
A plurality of osmotic pressure members each mounted on the support member and extending from the planting space to the first fresh water space and pulling water stored in the first fresh water space into the planting space;
And a cover unit mounted on the outer circumferential surface of the water tank so as to be spaced apart from the water tank and connected to the water tank so as to form a heat insulating space around the water tank,
The tray
And a plurality of water pipes for discharging rainwater or water to the first fresh water space, and a plurality of water pipes for discharging rainwater or water to the first fresh water space, A through hole is formed and is provided with a grip portion for carrying it to one end and the other end or for facilitating detachment from the water tank portion,
The support member
And a penetrating portion communicating with the inner space opened to the lower side and being cut in the form of a slot in the outer circumferential surface to communicate with the planting space,
The cover unit
A plurality of side covers arranged to surround the circumference of the water tank part so as to be spaced apart from the outer circumferential surface of the water tank part;
A plurality of side cover connecting members positioned between the side covers to couple the side covers to each other;
An upper cover having an opened lower end connected to an upper end of the side cover and an upper end of the side cover connecting member,
And a base receiving portion coupled to a lower end of the side cover and a lower end of the side cover connecting member to support the water tank portion. delete delete delete delete delete The method according to claim 1,
A second fresh water space that is mounted below the water tank and opens at an upper portion to receive water and is formed to protrude from the bottom surface in the direction of the first fresh water space to cross the second fresh water space, And an auxiliary tank part provided with a partition wall which is engaged with the lower part. 8. The water treatment system according to claim 7, wherein the water tank portion
And an overflow slot which is cut at one side so that water can be supplied only to a predetermined height in the first fresh water space, so that water supplied to the first fresh water space at a predetermined height or higher flows into the second fresh water space.

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