KR101136612B1 - Cultivation for functional plant - Google Patents

Abstract

PURPOSE: A functional plant cultivator automatically supplying the moisture is provided to enable users to control the replacing period of supplied water by visually checking the water level inside a container. CONSTITUTION: A functional plant cultivator automatically supplying the moisture comprises the following: a container(1) capable of supplying fluid by fitting a stopper(2) to an inlet(11) on the lower side; a planter body(3) including a dividing partition(31) dividing the space inside the planter body into a container mounting space(4) and a planting space(5); an outlet(311) formed on the bottom of the dividing partition for supplying the fluid into the planting space; a partition wall(52) protruded from the bottom of the planting space for forming a waterway(51) for guiding the flow of the fluid; and a separating membrane plate(6) preventing the clogging of the waterway, and including cut pieces(61) for smoothly supplying the moisture to plants.

Description

Functional Plant Grower with Automatic Water Supply {CULTIVATION FOR FUNCTIONAL PLANT}

The present invention relates to an automatic water supplying functional plant cultivator, and more particularly, the fluid in the container is configured to be supplied to the inside of the plant cultivation base only at a certain level, and the fluid supplied to the plant cultivation base through the container is plant It is supplied to the waterway formed in the planting space partitioned within the cultivation base, and the fluid supplied to the waterway is prevented from interfering with the gravel or soil stored in the planting space through the separator plate seated on the upper portion of the waterway uniformly throughout the planting space. Not only can be naturally supplied, but also a plurality of water supply holes and cut pieces are formed in the separator plate to supply fluid to the upper part of the separator plate to promote the growth of the plant, as well as to provide a natural environment for the plant is optimal Plants can be cultivated in the environment and can be used as a hydroponic or sprout cultivator. Supplies related to functional plant jaebaegi.

In general, in the case of plant cultivators that require water frequently, the user supplies water continuously without missing the water supply time, which is extremely cumbersome, and especially in hydroponic cultivation, neglecting the continuous supply of water causes problems in development. It is costing you.

In order for plants to grow normally, water must be poured into the plant cultivator. In particular, plants that require a lot of water will dry out if they do not supply water for a few days, so watering the plant cultivator periodically is very important for the management of vegetation.

In addition, if water is accumulated in the plant cultivator for too long, it will adversely affect the growth of the plant. Therefore, it is necessary that the soil contained in the plant cultivator always contains appropriate moisture. Therefore, conventionally, a plurality of holes are formed in the bottom of the plant cultivator so that the drainage is well, and the bottom of the plant cultivator protrudes upwards so that the edge of the plant cultivator does not flow out to the indoor floor. By installing the, the water drained from the plant cultivator is allowed to accumulate in the plant cultivator base to be evaporated.

However, since the soil of the plant cultivator must be regularly watered so that the soil always contains appropriate moisture, growing plants in a general home or office requires a lot of attention, and when the house or office is vacated for a long time, There was a problem that caused the plant to die.

In addition, if the water is not timely, the plant does not grow normally and loses its value as an ornamental, and if the water supply time is frequently broken, there is a problem that eventually kills the plant.

In addition, conventionally, when water is supplied to the plant and the soil exceeds the amount of water that can be absorbed, the plant is decayed or drained through a hole formed in the bottom of the plant cultivator, and the flowed water is collected in the plant cultivator's pedestal. There was a problem that aesthetically not so good.

In addition, when the plant cultivator is not placed on the bottom of the plant cultivator by mistake, the water drained from the cultivator has a problem that flows to the floor of the room to mess around the plant cultivator.

The present invention has been made in view of the above problems, an object of the present invention, the fluid in the container is configured to be supplied to the inside of the plant cultivation base only at a certain level, and also supplied to the plant cultivation base through the container The fluid is supplied to the waterway formed in the planting space partitioned within the plant cultivation base, and the fluid supplied to the waterway is prevented from interfering with the gravel or soil stored in the planting space through the separator plate seated on the upper portion of the waterway. In addition, the separator can be supplied uniformly, and a plurality of water supply holes and cut pieces are formed in the separator so that the fluid can be supplied to the upper part of the separator to promote the growth of the plant and provide a natural environment. Function of automatic water supply with structure that can be planted in optimum environment and used as hydroponic or sprout cultivation To provide a plant grower.

In addition, a second object of the present invention is to provide a functional plant grower capable of automatically supplying and discharging fluids capable of discharging the fluid contained in the container and easily supplying and discharging the fluid to the container without leaving the container. .

According to a feature of the present invention for achieving the object as described above, the first invention relates to a functional plant grower for automatic water supply, fluid supply in a state that does not leave the stopper 2 at the inlet 11 formed in the lower portion This possible container (1); and a plant cultivation base body (3) having a partition plate (31) partitioning the container seating space (4) to which the fluid is supplied from the container (1) and the planting space (5) in which the plants are planted. And a discharge port 311 formed at a lower portion of the partition partition plate 31 so that the fluid discharged from the container 1 can be supplied to the planting space 5; and the fluid discharged through the discharge port 311. A pair of partition walls 52 protruding from the bottom surface of the planting space 5 so that a channel 51 for guiding the side to one side is formed; And it is seated on the upper portion of the partition wall 52 to block the blockage of the waterway 51, and in addition to supply the fluid to the top and downward to the triangular shape to smoothly provide a supply environment of water as the root of the plant grows. It characterized in that it comprises a separator plate 6 having a plurality of cut pieces 61 cut in an inclined form.

According to a second invention, in the first invention, the plant cultivation base (3) is elliptical in shape and the outer surface of the container (1) on the outer wall of the container seating space (4) to visually identify the fluid level in the container (1). It is preferable that the incision surface 42 cut to the bottom is formed.

According to a third invention, in the first invention, each of the partition walls 52 is spaced apart from the wall surface of the planting space 5 so that the fluid flowing into the water channel 51 can flow out to the entire planting space 5 bottom. It is preferably formed.

The fourth invention, in the third invention, each of the partition wall 52 is preferably connected to the wall surface of the planting space (5) through the connecting rod 53 to prevent sagging of the separator plate (6) seated on the top. Do.

According to a fifth aspect of the present invention, a round handle 12 is formed on the upper portion of the container 1 so as to be easily gripped by hand, and extends to the handle 12 and the lower part to be integral with the container 1. It is preferable that it further comprises the bottleneck 13 which consists of.

The sixth invention, in the fifth invention, the container 1 further comprises a pocket 14 that is detached / detached to the side of the handle 12 so that the handle 12 is wrapped, wherein the pocket 14 is a letter. It is preferable that the character 15 described in the / advertisement / design 16 is integrally formed on the upper portion.

Seventh invention, in the first invention, the separator 6 is seated on the upper portion of the waterway 51 in the opposite direction so that the downwardly inclined cutting piece 61 can be inclined upwardly, the waterway 51 It is preferable to further include an absorbing member 63 coupled to the cut piece 61 so that the fluid inside is absorbed by the capillary action can be supplied to the upper portion of the separator plate (6).

In the eighth invention, it is preferable that, in the second invention, the container 1 exposed to the incision surface 42 is provided with a text / advertisement / design 16 and a scale 17.

The ninth invention, in the first invention, it is preferable that the container (1) further comprises a hook latch 18 coupled to the partition plate 31 of the plant cultivation base (3).

The tenth invention, in the first invention, the stopper (2), the container coupling portion 211 is formed with a female screw that can be coupled to the male screw formed in the inlet of the container 1, the container coupling portion 211 The guide portion 212 is spaced apart from the container coupling portion 211 and the flow path portion 215 for the outflow of the fluid in the longitudinal direction, the container coupling portion 211 and the guide portion 212 A plug body portion 21 including a connecting portion 213 sealing the space between the container coupling portion 211 and the guide portion 212 while being connected; and one end of the guide portion 212 is in close contact with the fluid A blocking portion 221 formed to cover one end of the guide portion 212 to be blocked, and one end is connected to the blocking portion 221 to extend along the inner circumference of the guide portion 212 and the fluid Slide portion 222 is formed through the through-hole 222a for the passage of, and when the tip is pressed the blocking portion 221 is A fluid entry / exit unit 22 including a switching unit 223 connected to the slide unit 222 so as to be spaced apart from the guide unit 212; And when the pressing force applied to the front end of the switching unit 223 is released, the connecting unit 213 and the switching unit return to the original state so that the blocking unit 221 is in close contact with the guide unit 212. It is preferable to include a; (23) connected to the spring (223).

According to the automatic plant moisture supply functional plant according to the present invention, it is also possible to easily identify the water level of the container to adjust the replacement time of the supply water (watering) has the advantage of very convenient maintenance.

In addition, the fluid in the container is configured to be supplied to the inside of the plant cultivation base only at a certain level, and the fluid supplied to the plant cultivation base through the container is supplied to the water channel formed in the planting space partitioned in the plant cultivation base, The supplied fluid may be uniformly supplied to the entire planting space by preventing interference by gravel or soil stored in the planting space through the separator plate seated on the upper portion of the water channel, and the separator plate may include a plurality of moisture supply holes and The cut pieces are formed to enable the fluid to be supplied to the upper part of the separator plate to promote the growth of the plant, as well as hydroponic cultivation or sprout cultivation.

1 is a perspective view of an automatic water supply functional plant grower according to the present invention,
2 is an exploded perspective view of FIG.
3 is a perspective view illustrating a state in which the separator extracted in FIG. 2 is seated;
Figure 4 is an enlarged perspective view of the stopper extracted in Figure 2,
5 is a cross-sectional view of FIG.
6 is a partial cutaway perspective view of the main body in the stopper,
7 is an operation diagram showing a state of discharging water from the container through a stopper,
8 is an operation of the automatic water supply functional plant grower according to the present invention,
9 is a cross-sectional view showing a stopper of another embodiment;
10 is an installation of the separator plate installed in another embodiment,
FIG. 11 is a cross-sectional view illustrating an installation of the separator plate of FIG. 10.

Hereinafter, with reference to the accompanying drawings with respect to the automatic water supply functional plant grower according to the present invention will be described in detail.

1 is a perspective view of an automatic water supplying functional plant grower according to the present invention, Figure 2 is an exploded perspective view of Figure 2, Figure 3 is a perspective view showing a state in which the separator extracted in Figure 2 is seated,

As shown in FIG. 1, the present invention is configured such that the fluid in the container 1 is supplied to the inside of the plant cultivation base 3 only at a predetermined level, and also the plant cultivation base 3 through the container 1. The fluid supplied thereto is supplied to the channel 51 formed in the planting space 5 partitioned within the plant cultivation base 3, and the fluid supplied to the channel 51 separates the separator plate 6 seated on the upper part of the channel. By preventing interference by gravel or soil stored in the planting space (5) through it can be uniformly supplied to the entire planting space (5), as well as a plurality of moisture supply holes 62 and the separator plate (6) An incision piece 61 is formed so that the fluid can be supplied to the upper part of the separation membrane 6 to promote the growth of the plant, as well as to the hydroponic cultivation or sprout cultivation structure of the automatic water supplying functional plant grower 9. It is about.

The automatic water supply functional plant cultivator 9 is composed of a container 1 in which a fluid composed of two parts is largely stored, and a functional plant cultivation base 3 for automatically supplying moisture by mounting the container 1.

In this case, the container 1 is configured to enable fluid supply without leaving the plug 2 coupled to the inlet 11 formed at the bottom thereof.

At this time, the container 1 is configured such that the fluid can be discharged only to a certain level through the stopper 2 to be described later discharged.

The upper portion of the container (1) is formed of a round circular handle 12 so as to be easily gripped by hand, extends to the lower portion of the handle 12 is composed of a bottleneck (13) integrally with the container (1). .

At this time, the container 1 is configured to include a pocket 14 to be detached / attached to the side of the handle 12 so that the handle 12 is wrapped. At this time, the pocket 14 has a structure in which the character 15 described in the text / advertisement / design 16 is integrally formed thereon.

That is, this structure is configured to be easily separated from the plant cultivation base 3 by gripping the container 1 through the handle 12 of the container 1, and also the pocket 14 in the handle 12 After combining the character / advertisement / pattern 16 is a structure that allows you to inform the phrases or local specialties conveyed through the character 15 described.

In addition, the container 1 is configured to continuously supply the fluid to the plant cultivation base (3) without leaving the stopper (2) coupled to the inlet (11) formed at the bottom, the stopper (2) Will be described below.

The plant cultivation base 3 has a structure in which a partition plate 31 for partitioning the container seating space 4 into which the fluid is supplied and the planting space 5 into which the plant is planted is formed.

The plant cultivation base (3) is elliptical, and the fluid level in the container (1) can be visually identified and the rain can be naturally drained to the lower portion of the container (1) on the outer wall of the container seating space (4). The cut incision surface 42 is formed. At this time, the container 1 exposed to the incision surface 42 has a scale 17 as well as a text / advertisement / design 16 so that the level and volume of the fluid in the container 1 can be grasped.

On the other hand, the container (1) is formed with a hook clasp 18 is coupled to the partition plate 31 of the plant cultivation base (3) can prevent the container (1) from being separated from the potted plant seating space (4) Structure.

A discharge port 311 is formed at a lower portion of the partition plate 31 partitioning the plant cultivation base 3 to supply the fluid discharged from the container 1 to the planting space 5.

At this time, the partition wall 52 protrudes in a pair on the bottom surface of the planting space 5 so that a water channel 51 for guiding the fluid supplied through the outlet 311 to one side is formed.

Here, the partition wall 52 is a structure formed at a predetermined distance from the wall surface of the planting space 5 so that the fluid flowing into the waterway 51 can flow out to the entire planting space (5) bottom. At this time, each of the partition walls 52 and the wall surface of the planting space 5 through the connecting rod 53 to prevent sagging of the separator plate 6 seated on the upper side while flowing the fluid into the entire planting space 5 It is a structure that is connected.

In addition, the separation membrane plate 6 is mounted on the partition 52 to block the waterway 51 from being blocked by soil and gravel in the planting space 5.

The separator 6 has a structure in which a cut piece 61 capable of supplying fluid to the top and absorbing moisture smoothly as the plant grows. In the embodiment of the present invention, a single incision 61 is formed.

The incision 61 is "

"It is cut into a downwardly inclined shape and is stored in the waterway 51, blocking foreign matters such as gravel or soil from entering the waterway, while being able to absorb moisture smoothly as the plant grows. It is configured to be.

In addition, the separator plate 6 is provided with a water supply hole 62 in addition to the cut piece 61 so that the fluid can be continuously supplied to the upper portion of the separator plate 6 through the water supply hole 62. It is composed.

Hereinafter, a stopper coupled to the inlet of the container will be described.

4 is an enlarged perspective view of the stopper extracted from FIG. 2, FIG. 5 is a cross-sectional view of FIG. 4, and FIG. 6 is a partially cutaway perspective view illustrating the main body part from the stopper.

As shown in Figures 4 to 6, the stopper 2 is composed of a main body portion 21, the fluid entry and exit 22 and the spring 23.

The main body portion 21 may further include a container coupling portion 211, a guide portion 212, and a connection portion 213, and may further include a cover 214.

The container coupling portion 211 is formed on the inner circumference of the female screw that can be coupled to the male screw formed in the inlet 11 of the container (1). Since the container coupling portion 211 is fastened to the inlet 11 of the container 1, the container coupling portion 211 is formed in a cylindrical shape like the inlet 11 of the container (1).

The guide part 212 is spaced apart from the container coupling part 211 in the container coupling part 211. Therefore, the diameter of the guide portion 212 should be smaller than the diameter of the container coupling portion 211. The guide unit 212 serves to guide the slide unit 222 to be described below to be moved inside.

In addition, the guide part 212 is provided with a flow path part 215 for the outflow of the fluid in the longitudinal direction. The flow path portion 215 is formed of a groove portion 215a recessed in the longitudinal direction from the inner peripheral side to the container coupling portion 211 side in the connecting portion 213, the groove portion 215a below the connecting portion 213 It is made of a through portion 215b penetrated while being connected to.

This is because the groove 215a is formed only on the inner circumferential side when the blocking portion 221 to be described below is in close contact with one end of the guide portion 212 has a structure in which the outflow of the fluid can be blocked, the introduced fluid Is to be quickly discharged through the incision 215b.

The connection part 213 seals between the container coupling part 211 and the guide part 212 while connecting the container coupling part 211 and the guide part 212. Therefore, when the container coupling part 211 is fastened to the container 1, the connection part 213 restricts the movement of the container coupling part 211 while the inlet of the container 1 in the region excluding the guide part 212. (11) is closed.

In addition, the cover 214 extends to the same diameter as the container coupling portion 211, surrounds the switching unit 223 to be described below, and has a through hole 241a for outflow of the fluid.

Meanwhile, the fluid inlet / out part 22 is composed of the blocking part 221, the slide part 222, and the switching part 223.

The blocking part 221 may be in close contact with one end of the guide part 212 to cover one end of the guide part 212 so as to block the entry and exit of the fluid. In this case, a sealing material (not shown) may be additionally installed at a point where the blocking part 221 and the guide part 212 face each other to improve a sealing effect when the blocking part 221 is in close contact with the guide part 212. Can be.

One end of the slide part 222 is connected to the blocking part 221 and extends along the inner circumference of the guide part 212, and a through hole 222a is formed for the passage of the fluid. The through hole 222a is formed at a position adjacent to the blocking part 221, and is formed in a slit form to block passage of a relatively large foreign matter, and is formed at a predetermined interval along the circumferential direction of the slide part 222. .

The switching unit 223 is connected to the slide unit 222 so that the blocking unit 221 is spaced apart from the guide unit 13 when its tip is pressed. In this case, the switching unit 223 spaces the blocking unit 221 from the guide unit 212 while reversing until it contacts the guide unit 212.

In this case, the switching unit 223 preferably has a storage space having a relatively larger diameter than the slide unit 222 to move to the slide unit 23 while the supplied fluid is stored.

In addition, the switching unit 223 is configured to overcome the elastic force of the spring 23 by the weight of the fluid while storing the fluid flowing in by forming the reservoir space once.

A female screw may be formed on the inner circumference of the switching unit 223. This is to use to increase the discharge level by fastening the extension piece 224 of the cylindrical shape and the male thread formed on the outer periphery to the switching unit 223.

Meanwhile, when the pressing force applied to the tip of the switching unit 223 is released, the spring 23 returns the switching unit 223 to its original position so that the blocking unit 221 is in close contact with the guide unit 212. 213 and the switching unit 223. Such spring 23 is preferably installed in a plurality of places for the stable operation of the switching unit 223.

Hereinafter will be described briefly with respect to the operation of the stopper for discharging the fluid stored in the container according to the present invention.

7 is an operation diagram showing a state in which water is discharged from the container through a stopper.

As shown in FIG. 7, the container 1 is inserted into the container seating space 4 in the direction in which the stopper 2 is coupled. Then, the container 1 is first mounted on the step 41 provided in the container seating space 4, and the stopper 2 is switched by the pressing force generated by contact with the bottom surface of the container seating space 4. 223 is pushed back so that the blocking portion 221 is spaced apart from the slide portion 222.

At this time, the fluid contained in the container 1 flows into the flow path part 215 of the guide part 212 and is discharged to the bottom surface of the container seating space. That is, the fluid flows into the groove portion 215a of the flow path portion 215 and is discharged through the cutout portion 215b.

As when the fluid is supplied, the fluid may be discharged to the through hole 222a of the slide unit 222 when the fluid is discharged. However, the fluid discharged to the through hole 222a is smoothly discharged because the switching unit 223 is in close contact with the bottom surface. Therefore, although the fluid may be discharged through the through hole 222a, the main discharge is through the flow path part 215.

And the discharge of the fluid is limited by the level of the fluid accumulated on the floor. That is, when the container 1 is inverted, air is collected at the top of the inverted container 1, and when the fluid is discharged, additional air must be introduced into the top of the container 1. At the initial stage of discharging the fluid, the level of the fluid accumulated on the bottom surface is low, so that air can be supplied to the container 1, but when the space for air between the fluid in the container 1 and the fluid accumulated on the floor disappears, the container (1) As the additional supply of furnace air is restricted, the fluid is no longer discharged.

Then, when the level of the fluid accumulated on the bottom surface is lowered to enable the air supply to the container 1 again, the fluid is partially discharged from the container 1 at that time.

Hereinafter, the operation of the automatic water supply functional plant grower according to the present invention will be briefly described.

8 is an operation of the automatic water supply functional plant grower according to the present invention.

As described above, the fluid flowing out of the plug 2 of the container 1 is introduced into the water channel 51 of the planting space 5 through the outlet 311 of the partition plate 31.

The fluid flowing into the water channel 51 is supplied to the gravel and soil through the water supply hole 62 and the cut piece 61 of the separator 6, and the end of the partition 52 and the planting space 5 and It is supplied to the whole planting space (5) through the wall surface of the.

At this time, if the water level in the channel 51 is lowered, the fluid is filled from the cap 2 of the container 1 described above, and the fluid can be continuously supplied.

In addition, as the plants planted in the planting space 5 continue to grow, the roots gradually lengthening can be introduced directly into the waterway 51 space through the incision piece 61, so that hydroponic cultivation is possible.

In addition, when the water level of the container 1 seated in the container seating space 4 is reduced, the water level of the container 1 is visually identified through the incision surface 42 provided in the container seating space 4, and thus, in the container 1. It is possible to fill the fluid.

The following is a cross-sectional view showing a stopper of another embodiment.

9 is a cross-sectional view illustrating a stopper of another embodiment.

As shown in the drawing, a female screw may be formed on an inner circumference of the switching unit 223. This is by fastening the extension piece 224 made of a cylindrical shape and formed with a male thread on the outer periphery to the switching unit 223, it is possible to increase the discharge level, and consequently to supply more fluid to the planting space (5). .

Hereinafter, an installation diagram of a separator plate installed in another embodiment.

FIG. 10 is a view illustrating an installation of a separator plate installed in another embodiment, and FIG. 11 is a cross-sectional view illustrating an installation of the separator plate of FIG. 10.

10 and 11, the separator 6 may be seated on the upper portion of the waterway 51 in the opposite direction so that the downwardly inclined cut piece 61 may be inclined upward.

At this time, the fluid in the channel 51 is further configured to further include an absorbing member 63 coupled to the cut piece 61 so that the fluid in the channel 51 is absorbed by the capillary action and supplied to the upper portion of the separator plate 6.

One end of the absorbing member 63 is grounded to the channel 51 to absorb the fluid, and the other end is configured to be exposed to the upper portion of the cut piece 61. This configuration is to allow the fluid in the channel 51 to be absorbed by the capillary phenomenon and supplied to the planting space 5.

On the other hand, the absorbent member 63 is fixed by the incision piece 61, there is an effect capable of accurate quantitative irrigation, and of course, it is possible to supply customized moisture by changing the thickness or material of the absorbent member according to the plant.

As described above, according to the automatic plant water supplying functional plant growers, forming a hook on the side of the plant cultivation base, or accommodates the plant cultivation base and provided with a cradle formed with hooks or clasps to separate the apartment porch or bridge railings Or it can be hung and installed on the wall wall recording of course.

As described above, the rights of the present invention are not limited to the embodiments described above, but are defined by the claims, and various modifications and adaptations are made within the scope of the rights described in the claims by those skilled in the art. It is self evident.

1: container 11: inlet 12: handle
13: bottleneck 14: pocket
15: Character 16: Text / Design / Advertisement
17: scale 18: hook clasp
2: stopper 21: main body 211: container coupling portion
212: guide portion 213: connecting portion
214: cover 214a: through hole
215: Euro part 215a: Groove part
215b: incision 22: fluid entry and exit
221: blocking portion 222: slide portion
222a: through hole 223: switching unit
224: extension piece 23: spring
3: plant cultivation base 31: compartment plate 311: outlet
4: container seating space 41: step 42: incision surface
5: planting space 51: waterway 52: bulkhead
53: connecting rod
6: separator 61: incision piece 62: moisture supply hole
63: absorbing member
9: automatic water supply functional plant grower according to the present invention

Claims (10)

A container (1) capable of supplying fluid without leaving the stopper (2) from the inlet (11) formed at the bottom;
A plant cultivation main body (3) having a partition plate (31) for partitioning the container seating space (4) into which fluid is supplied from the container (1) and the planting space (5) for planting;
A discharge port 311 formed at a lower portion of the partition plate 31 to supply the fluid discharged from the container 1 to the planting space 5;
A pair of partition walls 52 protruding from a bottom surface of the planting space 5 to form a water channel 51 for guiding the fluid flowing out through the outlet 311 to one side; And
It is seated on the top of the partition wall 52 to block the blockage of the waterway 51, and in addition to supply the fluid to the top and down to the triangular shape to provide a smooth supply environment of water as the roots of plants grow. A functional plant grower for automatic water supply, characterized in that it comprises a separator plate (6) having a plurality of cut pieces (61) cut in the form of a picture.
The method of claim 1,
The plant cultivation base (3) is elliptical in shape, and the incision surface (42) cut to the bottom of the container (1) on the outer wall of the container seating space (4) so that the fluid level in the container (1) can be visually identified. An automatic water supplying functional plant grower, characterized in that formed.
The method of claim 1,
The partition walls 52 are automatically supplied with moisture, characterized in that formed at a predetermined interval with the wall surface of the planting space 5 so that the fluid flowing into the waterway 51 flows out to the entire planting space (5) bottom. Plant Growers.
The method of claim 3, wherein
Each of the partition walls 52 is connected to the wall surface of the planting space (5) through the connecting rod 53 in order to prevent sagging of the separator plate (6) seated on the top of the automatic plant moisture supply functional plant.
The method of claim 1,
The upper part of the container 1 further comprises a round circular handle 12 so as to be easily gripped by hand, and a bottleneck 13 extending to the handle 12 and the lower part integrally with the container 1. Functional plant grower, characterized in that the automatic water supply.
6. The method of claim 5,
The container 1 further includes a pocket 14 that is detached / detached to the side of the handle 12 so that the handle 12 is wrapped,
The pocket (14) is characterized in that the character / advertisement / pattern (16) is characterized in that the character 15 is formed integrally on top of the automatic water supply functional plant grower.
The method of claim 1,
The separator plate 6 is seated on the upper portion of the waterway 51 in the opposite direction so that the downwardly inclined cutting piece 61 may be inclined upwardly,
Automatic supply of water, characterized in that it further comprises an absorbing member (63) coupled to the cut piece (61) so that the fluid in the channel 51 can be absorbed by the capillary action and supplied to the upper portion of the separator plate (6). Functional plant growers.
The method of claim 2,
The container (1) exposed to the incision surface 42, characterized in that the character / advertising / pattern (16) and scale 17 is characterized in that the automatic plant supplying water supply function.
The method of claim 1,
The container 1 further comprises a hook clasp 18 coupled to the partition plate 31 of the plant cultivation base (3).
The method of claim 1,
The stopper 2,
A container coupling portion 211 formed with a female screw which may be coupled to a male screw formed at an inlet of the container 1, and spaced apart from the container coupling portion 211 in the container coupling portion 211 and outflow of the fluid. The flow path portion 215 for the guide portion 212 formed in the longitudinal direction, while connecting the container coupling portion 211 and the guide portion 212 between the container coupling portion 211 and the guide portion 212 A plug body portion 21 including a connecting portion 213 for sealing;
A blocking part 221 formed to cover one end of the guide part 212 to be in close contact with one end of the guide part 212 and to block the entry and exit of the fluid, and one end of which is connected to the blocking part 221. And a slide part 222 extending along the inner circumference of the guide part 212 and having a through hole 222a for the passage of the fluid, and the blocking part 221 is the guide part 212 when the tip is pressed. A fluid entry / exit unit 22 including a switching unit 223 connected to the slide unit 222 so as to be spaced apart from the slide unit 222; And
When the pressing force applied to the tip of the switching unit 223 is released, the switching unit 223 is returned to its original state so that the blocking unit 221 is in close contact with the guide unit 212 so that the connection unit 213 and the switching unit ( 223, a spring 23 is connected to; automatic water supply functional plant grower comprising a.

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