WO2012138106A2 - Flower pot equipped with a nutrient-liquid absorption type of delivery device - Google Patents

Abstract

In the present invention, in order to achieve efficient and safe supply of an aqueous fraction such as a nutrient liquid to flowers while additionally improving convenience of use, a flower pot is provided which is equipped with a nutrient-liquid absorption type of delivery device, when the flower pot comprises: an outer cylinder in the bottom of which is formed a nutrient-liquid holding part; a holding body which is disposed so as to rest on the upper side of the outer cylinder and holds a culture medium on the inside, and on one side of the bottom of which is formed a through hole; and a nutrient-liquid absorption type of delivery device which is disposed passing through the through hole such that one end thereof extends to the culture medium and the other end thereof lies inside the nutrient-liquid holding part.

Description

Planter with nutrient absorbing delivery device

The present invention relates to a potted plant, and more particularly, to a potted plant equipped with a nutrient solution-absorbing delivery device to improve the ease of use and to provide water and nutrients such as nutrient solution to the flower.

In general, people have enjoyed the life by making various types of plants by making pots, and as the life improves, they are trying to diversify the types of pots and how to manage the pots.

On the other hand, there is a problem in the conventional plants to give a large amount of water in the management of pots, water in the pots, do not give attention to the water due to long-term business trip, etc. do not give water for a certain period or more. Because of this There is a need for constant attention, such as the proper supply of moisture, which is complicated. In addition, cleanliness management and discomfort in growing or mud plants are still challenges to be solved.

Therefore, it is desired to develop a pot that can be planted cleanly and conveniently by eliminating the need to supply nutrient solution with continuous interest.

In order to solve the above problems, the present invention The problem to be solved is to provide a potted device equipped with a nutrient solution absorption delivery device to improve the ease of use as well as to supply moisture, such as nutrient solution to the flowers..                 

In order to solve the above problems, one embodiment of the present invention is an outer cylinder formed with a nutrient solution receiving portion; It is disposed to be seated on the upper side of the outer cylinder, the medium is accommodated in the inner side of the receptor formed in the through hole on one side; And a nutrient solution-absorbing delivery device including a nutrient solution-absorbing delivery device configured to pass through the through hole, and one end thereof extends to the medium side, and the other end is placed inside the nutrient solution-receiving part to absorb and feed the nutrient solution to the medium side. Provided with a potted device provided.

On the other hand, another embodiment of the present invention is a nutrient solution receiving portion is formed in the lower portion is the upper portion is opened, the outer cylinder in which the locking step projection is formed on the inner side; A drip tray cover seated on an upper portion of the hooking jaw portion and disposed to cover an upper portion of the outer cylinder, wherein a first through hole is formed at one side; A receiver disposed to be seated on an upper portion of the drip cover, wherein a medium is accommodated inside and a second through hole formed to face the first through hole at a lower side thereof; And a nutrient solution-absorbing delivery device configured to pass through the first and second through-holes, one end of which extends to the medium side, and the other end of which is placed inside the nutrient solution receiving unit, to absorb the nutrient solution and to supply the medium to the medium side. Provided is a pot device equipped with a nutrient absorbing and delivery device.

Potted device equipped with a nutrient solution absorption delivery device according to the present invention provides the following effects.

First, since the nutrient solution stored in the outer cylinder is constantly supplied to the medium through the wick member of the nutrient absorbing and feeding device, only by placing the receptor storing the medium on the upper part of the outer cylinder, a fabric such as a flower is implanted into the medium to be stable and convenient. Can be grown. In addition, the medium and the nutrient solution-absorbing delivery device is provided as a pre-installed container, the installation is completed simply by seating the receptor on the top of the outer cylinder is easy to use.

Second, the protective film disposed to surround the wick member can prevent the root of the plant from penetrating into the wick member, the reinforcing function to prevent the wick member is broken and the wick member to transfer the nutrient solution moisture In order to maintain the state arranged in a certain shape can also be performed.

Third, the protective film may also perform a function of maintaining a moving passage of nutrient solution moisture to be delivered intensively to the root side of the plant, without the nutrient solution delivered through the wick member is distributed to the spare portion of the lower side of the medium.

Fourth, when the drip cover is provided, the assembly is easy, the water can be easily stored into the outer cylinder along the upper surface of the drip cover simply by spraying water or nutrient solution toward the drip cover cover, the drip cover The nutrient solution stored in the nutrient solution receiving portion may also perform a sunshade function to minimize evaporation by direct sunlight.

1 is a schematic view of a pot device equipped with a nutrient solution absorption delivery device according to an embodiment of the present invention.

Figure 2 is an exploded perspective view of a pot device with a nutrient solution absorption delivery device according to an embodiment of the present invention.

Figure 3 is a perspective view of a pot device with a nutrient solution absorption delivery device according to another embodiment of the present invention.

Figure 4 is a cross-sectional view of a pot device equipped with a nutrient solution absorption delivery device according to another embodiment of the present invention.

Figure 5 is an exploded perspective view of a pot device with a nutrient solution absorption delivery device according to another embodiment of the present invention.

Figure 6 is a perspective view of the nutrient solution absorption delivery device applied to each embodiment of the present invention.

FIG. 7 is a cross-sectional view taken along the line AA ′ of FIG. 6.

Best Modes for Carrying Out the Invention The best embodiments of the invention will be described in more detail below with reference to the accompanying drawings.

Hereinafter, with reference to the accompanying drawings will be described in detail a pot device provided with a nutrient solution absorption delivery device according to a preferred embodiment of the present invention.

1 is a schematic view of a potted device with a nutrient solution absorption delivery device according to an embodiment of the present invention, Figure 2 is an exploded perspective view of a potted device with a nutrient solution absorption delivery device according to an embodiment of the present invention.

As shown in Figure 1 and 2, the nutrient solution absorption device is provided with a pollen device comprises an outer cylinder 10, the receptor 20, and the nutrient solution absorption delivery device (30).

Here, the outer cylinder 10 is made of a container shape in which the nutrient solution receiving portion 11 is formed at the bottom, preferably formed of a structure made of synthetic resin and the like. At this time, the nutrient solution containing nutrients necessary for the cultivation of plants in water or water is stored inside the outer cylinder 10, and the projection window 12 made of a transparent material is located at one lower side so that the water level of the nutrient solution may be known. Preferably formed. Of course, the entire outer cylinder 10 may be formed of a synthetic resin made of a transparent material so that the amount of the water or the nutrient solution supplied to the nutrient solution accommodating part 11 may be understood.

In addition, one side of the outer cylinder 10 is formed with a nutrient solution supply unit 15 for supplying the water to the nutrient solution to the inside, the nutrient solution through the nutrient solution supply unit 15 at the appropriate level of the nutrient solution receiving unit 11 When supplied to the nutrient solution supply unit 15 is sealed using a stopper (15a).

And, the receptor 20 is disposed to be seated on the upper side of the outer cylinder 10, the medium 25 is accommodated in the inner side and a through hole 21 is formed on one side. To this end, it is preferable that the inner wall surface of the outer cylinder 20 is inclined, or the inner wall surface of the outer cylinder 10 is formed with a seating portion 13 to which the bottom edge of the container 20 is seated and fixed.

Here, the medium 25 is made of sawdust or grass powder, preferably containing nutrients for the growth of various plants. In addition, the medium 25 has a property that the surface is soft when water is supplied. In addition, the receptor 20 may be formed of a rigid body as a synthetic resin material, but is not limited thereto, and may be made of a flexible material such as vinyl. Of course, the medium may be replaced with a general soil.

On the other hand, the nutrient solution-absorbing delivery device 30 passes through the through hole 21, one end portion 31a of the wick member 31 disposed inside thereof extends toward the medium 25 and the other end portion 31b. ) Is disposed to lie inside the nutrient solution receiving portion (11). Through this, the nutrient solution may be absorbed through the other end portion 31b using a capillary phenomenon and supplied to the medium 25.

At this time, the nutrient solution-absorbing delivery device 30 is fixed to the fixing portion 26 provided in the clamping method, such as on one side of the inner wall surface of the receptor 20 is arranged to maintain the correct position, the nutrient solution absorption delivery device described above ( One end portion 31a of 30) is preferably disposed so as to be located at a part where the root of the plant is planted at the center of the upper surface of the medium. At this time, one end portion (31a) of the nutrient solution-absorbing delivery device 30 is preferably provided with "L" shaped bend.

In addition, one end portion 31a of the nutrient solution-absorbing delivery device 30 may be installed in a branched shape in a “U” shape. That is, the one end portion 31a of the nutrient solution-absorbing delivery device 30 may be branched into a plurality of strands according to the required amount of nutrient solution to be supplied according to the type of flower.

In addition, in order to minimize the evaporation of the nutrient solution supplied to the medium 25 disposed inside the container 20, the upper surface of the medium is preferably covered by a cover portion 40 made of a vinyl material or the like. In this case, the cover part 40 may be integrally formed with the container 20.

Referring to the use of the potted device equipped with a nutrient solution absorption delivery device according to an embodiment of the present invention configured as described above are as follows.

1 to 2, first, a user may supply water or nutrient solution to the nutrient solution receiving unit 11 through the nutrient solution supply unit 15 provided in the outer cylinder 10. At this time, the level of the nutrient solution supplied through the projection window 12 formed in the outer cylinder 10 can be confirmed.

Thereafter, after the nutrient solution absorption delivery device 30 is installed inside the container 20, the medium 25 is filled. At this time, the other end portion (31b of Figure 6) of the nutrient solution-absorbing delivery device 30 is exposed to the lower side through the through hole 21 formed in the lower portion of the container.

Next, when the receptor 20 is seated on the outer cylinder 10, the nutrient solution is absorbed through the wick member (31 in FIG. 6) of the nutrient solution absorption delivery device 30 is delivered to the medium 25. Through this, the medium 25 absorbs moisture and becomes soft.

And, by cutting the central portion of the upper surface of the medium 25, planting the roots of plants such as flowers and covering the medium 25 and the cover portion 40 can be completed simply installation. In addition, since the nutrient solution may be constantly supplied to the medium 25, the root of the flower is planted through the capillary phenomenon of the wick member 31, the flower can be grown reliably and conveniently.

On the other hand, Figure 3 is a perspective view of a potted device with a nutrient solution absorption delivery device according to another embodiment of the present invention, Figure 4 is a cross-sectional view of the potted device with a nutrient solution absorption delivery device according to another embodiment of the present invention, Figure 5 is an exploded perspective view of a pot device with a nutrient solution absorption delivery device according to another embodiment of the present invention.

As shown in Figure 3 to Figure 5, the nutrient solution absorption device is provided with a potted device includes an outer cylinder 110, drip cover 140, the receptor 120, and the nutrient solution absorption delivery device (30).

Here, the outer cylinder 110 is made of a container shape formed with a nutrient solution receiving portion 111 at the bottom, preferably formed of a hollow flat structure made of synthetic resin and the like. At this time, the nutrient solution containing nutrients necessary for the cultivation of plants in water or water is stored inside the outer cylinder 110, the projection window of a transparent material may be formed on one side so that the water level of the nutrient solution. Of course, the entire outer cylinder 110 may be formed of a synthetic resin made of a transparent material so that the amount of the water or the nutrient solution supplied to the nutrient solution container 111 may be understood.

And, the receptor 120 is disposed to be seated on the top of the drip cover 140, the medium 125 is accommodated inside and the first through hole 141 formed in the drip cover 140 on the lower side; Opposing second through holes 121 are formed. Here, the medium 125 is made of sawdust or grass powder, preferably containing nutrients for the growth of various plants. In addition, the medium 125 has a property that the surface is soft when water is supplied. Of course, the medium may be replaced with a general soil.

In addition, the receptor 120 is formed in a potted shape of a pottery to synthetic resin material cut in appearance, through which a flat pedestal to plate-shaped outer cylinder 110 supporting the potted plant at the bottom of the pot-shaped receptor 120 is disposed throughout Therefore, the overall appearance can provide a harmonious and sophisticated image that does not give a variety of flower pots and heterogeneity existing in the existing flower bed.

On the other hand, the inner side of the outer cylinder 110, the engaging step portion 113 is formed protruding, and the drip cover 140 is seated on the upper portion of the engaging step portion 113. Here, the drip cover 140 is disposed to cover the upper portion of the outer cylinder 110, the first through hole 141 is formed on one side.

Therefore, the nutrient solution-absorbing delivery device 30 passes through the first through hole 141 and the second through hole 121 so that one end thereof extends into the medium 125 and the other end thereof is inside the nutrient solution container. It is arranged to lie down so that the nutrient solution is absorbed and supplied to the medium side.

Here, the area of the lower end of the receptor 120 is formed smaller than the open area of the outer cylinder 110, the water supply interval is formed between the drip cover 140 and the inner peripheral surface of the outer cylinder (110). Through this, the user simply sprays water or nutrient solution toward the drip tray cover 140 exposed under the outer wall of the container 120, and the nutrient solution flows into the outer cylinder 110 along the upper surface of the drip cover 140. Can be stored. Of course, the nutrient solution supplied through the drip cover 140 may be formed in the central portion of the drip cover 140 so that the nutrient solution flows into the outer cylinder through the inner central portion thereof.

Through this, the drip cover 140 performs a sunshade function to minimize the loss of nutrient solution stored in the nutrient solution receiving portion 111 by evaporation from direct sunlight.

In addition, it is preferable that the outer edge of the drip tray cover 140 is provided with a downward gradient wing 142 toward the outside so that the supplied nutrient solution is smoothly guided. Therefore, water may be gently guided into the outer cylinder along the wing 142 without splashing.

In addition, the locking step jaw 113 is formed to protrude in a hollow in the central portion of the outer cylinder 110, the nutrient solution communication between the inside and the outside of the locking step jaw 113 is made so that the nutrient solution receiving portion 111 as a whole ) Space is maximized.

In addition, a fitting portion 143 protruding upward is formed at a central portion of the drip cover 140 so as to be coupled to an upper end of the latching step portion 113, and the protruding fitting portion 143 is formed at a lower end of the container 120. It is preferable that the mounting groove 123 is formed to be seated on the top of the). Through this, the assembly position is automatically aligned in the assembly process of the outer cylinder 110, the drip cover 140, and the receptor 120 to be stacked in a stacked manner, and once assembled, the locking projections, the fitting portion, and the seating The grooves are sequentially joined to each other to maintain a stylish appearance stably.

On the other hand, the nutrient solution absorption delivery device 30 passes through the through holes 121 and 141, one end portion 31a of the wick member 31 disposed inside thereof extends toward the medium 125 and the other end portion ( 31b) is disposed to lie inside the nutrient solution container 111. Through this, the nutrient solution may be absorbed through the other end portion 31b by using a capillary phenomenon and supplied to the medium 125.

At this time, the nutrient solution-absorbing delivery device 30 is fixed to a fixed portion provided in the clamping method, such as on one side of the inner wall surface of the receptor 120 is arranged to maintain a fixed position, of the nutrient solution-absorbing delivery device 30 described above One end portion (31a) is preferably disposed so as to be located in the part where the root of the plant is planted in the center of the upper surface of the medium. At this time, one end portion (31a) of the nutrient solution-absorbing delivery device 30 is preferably provided with "L" shaped bend.

In addition, one end portion 31a of the nutrient solution-absorbing delivery device 30 may be installed in a branched shape in a “U” shape. That is, the one end portion 31a of the nutrient solution-absorbing delivery device 30 may be branched into a plurality of strands according to the required amount of nutrient solution to be supplied according to the type of flower.

In addition, in order to minimize the evaporation of the nutrient solution supplied to the medium 125 disposed inside the container 120, the upper surface of the medium is preferably covered with a vinyl material or the like.

Referring to the use of the potted device equipped with a nutrient solution absorption delivery device according to another embodiment of the present invention configured as described above are as follows.

3 to 5, first, the user fills the nutrient solution to the inner nutrient solution of the outer cylinder, and seats the drip cover on the upper surface of the locking step projection protruding therein.

Thereafter, after the nutrient solution absorption delivery device 30 is installed inside the container 120, the medium 125 is filled. At this time, the other end portion 31b of the nutrient solution-absorbing delivery device 30 is exposed downward through the second through hole 121 formed in the container 120.

Next, the other end portion 31b of the exposed nutrient absorbing delivery device 30 is inserted into the nutrient solution receiving portion 111 through the first through hole 141 formed in the drip cover. Then, when the receptor 120 is seated on the drip cover 140, the nutrient solution is absorbed through the wick member (see 31 in FIG. 6) of the nutrient solution absorption delivery device 30 is delivered to the medium 125. . Through this, the medium 125 absorbs moisture and becomes soft.

In addition, by cutting the central portion of the upper surface of the medium 125, planting the roots of plants such as flowers and covering the medium 125, the installation can be completed simply. In addition, since the nutrient solution can be supplied to the medium through the capillary phenomenon of the wick member 31 toward the medium 125 where the root of the flower is planted, the flower can be cultivated stably and conveniently.

On the other hand, simply spraying the nutrient solution toward the outer surface of the outer cylinder 110 and the top of the drip tray cover 140, the nutrient solution is guided along the wing 141, so the nutrient solution is simply supplied into the nutrient solution receiving portion 111 inside Procedures for replenishment of nutrient solution to water may be convenient. At this time, the level of the nutrient solution supplied through the projection window formed in the outer cylinder 110 can be confirmed.

On the other hand, Figure 6 is a perspective view of the nutrient solution absorption delivery device applied to each embodiment of the present invention, Figure 7 is a cross-sectional view seen from the AA 'direction of FIG.

As shown in Figure 6 and 7, the nutrient solution absorption delivery device 30 is preferably made of a wick member 31 and a protective film (32).

In detail, the wick member 31 is provided integrally connected to the inside of the protective film 32, and absorbs the nutrient solution from the other end 31b by capillary action and transfers it to one end 31a. To this end, the wick member 31 is made of a hygroscopic material such as a nonwoven fabric, and both ends 31a and 31b thereof are preferably disposed to be exposed to the outside of the protective film 32.

In addition, the protective film 32 is provided to surround the exterior to protect the wick member 31, it is possible to discharge the moisture and nutrients through its surface.

In detail, the protective film 32 is made of a light and thin synthetic resin material such as a polyester resin, so that the root of the plant penetrates into the wick member 31 to entangle and prevent the wick member 31 made of a nonwoven fabric from being broken. The wick member 31 and the wick member 31 to maintain the state arranged in a predetermined shape for the delivery of the nutrient solution moisture.

That is, the protective film 32 may also perform a function of maintaining a moving passage of nutrient solution moisture to be intensively delivered to the root side of the plant without the nutrient solution delivered through the wick member 31 to the spare portion of the lower side of the medium. It may be.

On the other hand, it is preferable that a plurality of minute through holes 32a are formed on the surface of the protective film 32. That is, the nutrient solution delivered through the wick member 31 maintains the main function to be concentrated to the root side of the plant without being unnecessarily dispersed in the lower part of the medium and spaced from the root of the plant 25, but disposed below The medium 25 is relatively excessively dried so that minimal moisture can be supplied to the lower medium through the fine through holes 32a so as not to interfere with the growth of the plant roots.

As described above, the present invention is not limited to the above-described embodiments, but may be modified and implemented by those skilled in the art without departing from the scope of the claims of the present invention. Such modifications are within the scope of the present invention.

The present invention can be applied to the industry by providing a pot device that is significantly improved ease of use.

Claims (10)

1. An outer cylinder formed with a nutrient solution receiving portion at the bottom;

   It is disposed to be seated on the upper side of the outer cylinder, the medium is accommodated in the inner side of the receptor formed in the through hole on one side; And

   The nutrient solution absorption delivery device comprising a nutrient solution absorption delivery device which is disposed so as to pass through the through hole and one end portion is extended to the medium side and the other end is placed inside the nutrient solution receiving portion to absorb the nutrient solution to supply to the medium side. Potted plants.
2. The method of claim 1,

   The nutrient solution absorption delivery device,

   It is provided integrally connected to the inner side of the protective film, the wick member for absorbing the nutrient solution by capillary action from one end and delivered to the other end,

   Potted device provided with a nutrient solution absorption delivery device characterized in that it comprises a protective film disposed to surround the exterior to protect the wick member.
3. The method of claim 2,

   The wick member is made of a non-woven material, one end thereof is bent and branched planter device provided with a nutrient solution absorption delivery device, characterized in that arranged.
4. The method of claim 2,

   The protective film is made of a synthetic resin material, a plurality of fine holes are formed on the surface, the potted device with a nutrient solution absorption delivery device, characterized in that the upper surface of the medium accommodated in the container is provided with a cover to prevent evaporation of moisture.
5. The method of claim 1,

   Potted device with a nutrient solution absorption delivery device, characterized in that the inner wall surface of the outer cylinder is formed with a seating portion is fixed to the lower end of the receptor.
6. An outer cylinder having a nutrient solution receiving portion formed at a lower portion thereof, and having an upper portion opened therein, and a locking step jaw portion protruding therein;

   A drip tray cover seated on an upper portion of the hooking jaw portion and disposed to cover an upper portion of the outer cylinder, wherein a first through hole is formed at one side;

   A receiver disposed to be seated on an upper portion of the drip cover, wherein a medium is accommodated inside and a second through hole formed to face the first through hole at a lower side thereof; And

   A nutrient solution comprising a nutrient solution absorption delivery device for absorbing the nutrient solution and supplying the nutrient solution is disposed so as to pass through the first and second through hole one end portion to the medium side and the other end is placed inside the nutrient solution receiving portion Potted plant with absorption type transfer device.
7. The method of claim 6,

   The area of the lower end of the container is potted device equipped with a nutrient solution absorption delivery device, characterized in that formed smaller than the open area of the upper portion of the outer cylinder.
8. The method of claim 6,

   The outer edge of the drip tray cover is provided with a downward gradient wing toward the outside,

   Potted device with a nutrient solution absorption delivery device characterized in that the water supply interval is formed between the drip cover and the inner peripheral surface of the outer cylinder.
9. The method of claim 6,

   The latching stepped portion is formed to protrude in a hollow in the center portion of the outer cylinder, the dripping cover is formed with a protruding portion protruding upward to be joined to the upper end of the locking stepped portion, the lower end of the container is formed on the upper portion of the fitting portion Potted device provided with a nutrient solution absorption delivery device characterized in that the seating groove is formed to be seated.
10. The method of claim 6,

    The nutrient solution absorption delivery device,

    It is provided integrally connected to the inner side of the protective film, the wick member for absorbing the nutrient solution by capillary action from one end and delivered to the other end,

    Including a protective film disposed to surround the exterior to protect the wick member,

    The wick member is made of a non-woven material, one end thereof is bent and branched,

    The protective film is made of a synthetic resin material, a plurality of fine holes are formed on the surface, the potted device with a nutrient solution absorption delivery device, characterized in that the upper surface of the medium accommodated in the container is provided with a cover to prevent evaporation of moisture.

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