KR20150019469A - Knockdownable Flowerpot Apparatus - Google Patents

Abstract

The present invention relates to a fabricated flowerpot apparatus, which has multiple flowerpots arranged within the space formed by multiple water supply containers and drain containers installed in assembly, and nozzle members connected to the supply containers and installed at the upper part of each flowerpot so as to supply water to the flowerpots. The fabricated flowerpot apparatus according to the present invention comprises multiple flowerpots having plants planted; multiple drain containers arranged to surround the external side of the multiple flowerpots, and collecting water discharged from each of the flowerpots; multiple water supply containers combined to the upper side of each drain container to be attachable/detachable, forming a wall body surrounding the flowerpots along with the drain containers, and storing water to be supplied to the flowerpots; nozzle units installed at the upper side of each of the flowerpots, having one end connected to each of the water supply units, and guiding the water in the water supply containers to the upper side of the flowerpots to supply water to the flowerpots; and a drain member connecting the lower end of the flowerpots to the drain containers and guiding the water discharged from the flowerpots to the drain containers, wherein the multiple drain containers are formed to have connectors to be penetrated into both sides, and mutually connected via the connectors to continuously flow water through each of the drain containers; and the multiple water supply containers are formed to have connectors to be penetrated into both sides, and mutually connected via the connectors to continuously flow water through each of the water supply containers.

Description

{Knockdownable Flowerpot Apparatus}

The present invention relates to a granular pollen dispenser, and more particularly, to a granular pollen dispenser in which a plurality of flower pots are arranged inside a space formed by a plurality of water supply and drainage containers installed in a prefabricated manner, The present invention relates to a granular pollen device which is capable of supplying water to pollen by installing a member.

Recently, as the living standard has improved and the supply of residential type such as apartments and villas has increased rapidly, there has been an increasing tendency to decorate these verandas and interior spaces to make them feel environmentally friendly and natural beauty. Especially, in cities, it is not easy to see nature, and this desire is increasing.

To meet these demands, the emphasis is on environmentally friendly elements such as verandas and interior decorations, which are used to grow plants such as plants and vegetables.

The pollen is mainly used to improve the housing element in the home or the office environmentally. It can obtain the effect of indoor purification and indoor water supply, and can be used as an indoor decoration.

However, since the shape of the pollen is determined at the time of production of the pollen, it is impossible to change the shape of the pollen at will, and the size of the pollen can not be enlarged or reduced. Therefore, conventional pots cause monotony in terms of aesthetics, and functionally, it is inconvenient to replace them with larger pots when planted plants grow.

In addition, when watering plants planted in a flowerpot, there is a problem that the space in which the flowerpot is placed is spattered outside the flowerpot, and there is a problem that separate measures for draining water discharged from the flowerpot are necessary.

In order to solve such a problem, Korean Patent No. 0842945 discloses a granular flower pot which is made by assembling unit blocks so that the size can be easily expanded and changed and the shape can be diversified.

However, since the wall for determining the shape of the pollen is only the function of the wall, the conventional granular pollen described above does not have a large amount of plants that can be planted in comparison with the size of the pollen, And water is supplied to the plants to sustain the water supply. However, problems such as contamination of the fresh water part by the soil, difficulty in recharging the water in the fresh water part, and water drainage are still problems to be solved. have.

1. Korean Registered Patent No. 0842945 (Registration date June 25, 2008): Potted plant pot 2. Korean Registered Patent No. 1039808 (Registration Date: June 01, 2011): Detachable pollen with automatic feeder

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method and apparatus for a water- And it is possible to prevent the pollution or inconvenience caused by the drainage by allowing the water to be discharged to the outside after being collected in the drainage can.

According to another aspect of the present invention, there is provided a granular pollen dispenser comprising: a plurality of pots for planting; A plurality of drain passages arranged to surround the outside of the plurality of flower pots and collecting the water discharged from each flower pot; A plurality of water passages detachably coupled to the upper portions of the respective drain pipes to form a wall surrounding the pots together with the drainage passage and storing water to be supplied as pollen; A nozzle member installed on each of the pots and having one end communicated with the respective water supply passages to guide the water in the water supply tank to the upper side of the pots to supply water to the pots; And a drain member for connecting the lower end of the flowerpot to the drain pipe to guide the water discharged from the flowerpot to the drain pipe; Wherein the plurality of drainage troughs are formed to pass through the connection holes at both side portions thereof and communicate with each other through the connection hole to continuously flow water through the respective drainage troughs so that the connection holes are formed in both side portions of the drainage troughs So that water can be continuously flowed through the respective water supply troughs.

According to the present invention, when water is supplied to the water supply tank, water is discharged through a plurality of nozzle members connected to the water supply, water can be uniformly supplied to the upper side of each flowerpot, The pollen is prevented from splashing outside, and the clean state can be maintained.

Also, the water dropped down to the lower part of the pollen can be discharged to the outside through the drainage hose after being collected in the drainage pails through the drainage member, so that drainage is easy, and in the drainage process, There is also an effect of preventing the problem that is caused.

1 is a perspective view of a granular pollen apparatus according to an embodiment of the present invention.
Fig. 2 is a partially exploded perspective view of the granular potting device of Fig. 1;
3 is a front view of the granular pollen apparatus of Fig.
4 is a sectional view taken along the line II in Fig.
Fig. 5 is a transverse cross-sectional view of the corner portion of the granular pollen apparatus of Fig. 1;
Fig. 6 is a transverse cross-sectional view of a corner portion formed by drainage troughs of the granular potting apparatus of Fig. 1;
7 is a perspective view of a water container showing another embodiment of the granular potting device according to the present invention.
8 is a front view showing still another embodiment of the granular pollen apparatus according to 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 to 3, the granular potting apparatus of the present invention includes a plurality of pots 50 in which plants are planted; A plurality of water drainage tanks (10) arranged to surround the outside of the plurality of flower pots (50) and collecting the water discharged from the respective flower pots (50); A plurality of water supply tubes (20) detachably coupled to the upper portions of the drain tubes (10) and storing water to be supplied to the flower pots (50); And the water is supplied to the pots 50 by water from the water tub 20 to the upper side of the pots 50. [ A nozzle member (30) for supplying the nozzle member (30); A drainage member 40 connecting the lower end of the pollen 50 to the drainage tank 10 to guide the water discharged from the flowerpot 50 to the drainage tank 10, And a corner member 60 installed to shield the corner of the wall formed by the walls 20.

The pollen 50 may have any of various shapes such as a square box or a cylindrical box shape with an opened top surface, and is preferably made of a synthetic resin material such as plastic and can be assembled. In this embodiment, the pots 50 are arranged in two rows and three columns. However, it may be arranged in any other arrangement structure, for example, two rows or two rows or one row and two rows.

As shown in FIGS. 3 and 4, the water drainage tube 10 has a hollow rectangular box shape, and an upper end portion of the water drainage tube 10 is formed with an attachment / detachment groove 14 for attachment / detachment with the water supply tube 20. A drainage hole 11 connected to the drainage member 40 is formed in the inner side of the drainage tank 10 so as to pass through the drainage tank 10, And a connection hole (12) for interconnecting the drain canister (10) is formed to pass through. One of the connection holes 12 of the two connection holes 12 is formed to protrude outward so that the connection hole 12 can be inserted into the connection hole 12 of the other drain hole 10 and connected thereto.

The water supply tube 20 has a hollow rectangular box shape similar to the drain tube 10 and has a detachable protrusion 24 for detachable engagement with the drain tube 10 at a lower end thereof. A water supply hole 21 connected to the nozzle member 30 is formed in the inner side surface of the water supply tube 20 so as to penetrate through the water supply tube 20, And a connection hole 22 for connecting the water supply tube 20 to each other. The connection hole 22 of one of the two connection holes 22 is formed to protrude outward so that the connection hole 22 can be inserted into the connection hole 22 of the other water supply bottle 20 and connected thereto.

The water supply tube 20 and the drain tube 10 may have the same size and shape so as to be compatible with each other.

Referring again to FIGS. 1 and 2, the plurality of drain pipes 10 and the water supply pipes 20 form a wall surrounding the outside of the plurality of pollen 50. Each of the corners of the wall formed by the water drainage tube 10 and the water supply tube 20 communicates with each other by a connecting tube 70 which is curved as shown in FIG. 5, and the water drainage tube 10 and the water supply tube 20 are shielded by a corner member 60 formed into a 1/4 cylindrical shape.

Although not shown in the drawing, the corner member 60 is detachably coupled to both sides of the drain tube 10 and the water supply tube 20 by separate fastening means such as a hook or a coupling structure.

As shown in FIG. 6, a drain hose 80 made of a flexible corrugated pipe is connected to the lower end of any one of the plurality of drain pipes 10. The drain hose 80 is used for discharging the water collected in the drain hoses 10 to the outside. The end of the drain hose 80 is blocked by a stopper (not shown) The water in the drain canisters 10 can be discharged to the outside through the drain hose 80.

3 and 7, the nozzle member 30 includes a plate-shaped support plate 31 having a circular opening 32 formed at the center thereof, and a support plate 31 formed to be fixed to the support plate 31, A water supply pipe 33 connected to a water supply hole 21 formed on one side of the water supply tube 20 and a water supply pipe 33 provided to communicate with the other end of the water supply pipe 33 from a lower side of the support plate 31, And a ring-shaped nozzle body 34 having a plurality of spray holes 35 through which water flows out to the outside.

The nozzle body 34 has a circular ring shape, and has an advantage that water can be uniformly supplied to plants from above the flowerpot 50. (Not shown) such as a sponge may be additionally provided in the nozzle body 34 in order to further reduce the water jetting speed through the nozzle body 34.

3 and 7 and 8, a drainage member 40 for guiding the water collected at the lower part of the flowerpot 50 to the drainage tank 10 is installed on the bottom surface of the flowerpot 50. As shown in FIG. In this embodiment, the drainage member 40 includes a drainage inducing pipe 41 installed on the bottom surface of the flowerpot 50 and connected to the drainage tub 10 through one side portion of the flowerpot 50, Shaped shield plate 42 provided so as to shield a part of the induction pipe 41. [

One end of the drainage inducing pipe 41 communicates with a drain hole 11 formed in one side of the drainage tank 10 through a side surface of the flowerpot 50, And has a structure in which the inlet port 44 is opened. The shield plate 42 is installed at the lower end of the pollen 50 and shields the drain inlet 44 of the drain guide pipe 41 so that soil or gravel enters the drain inlet 44 and enters the drain inlet 44 ) Is blocked or contaminated. A plurality of water holes 43 are formed in the side surface of the shield plate 42 so that the water flows into the shield plate 42 through the water hole 43 and then flows into the drain pipe 41 And is introduced into the water discharge induction pipe 41 through the water discharge inlet 44.

The above-described granular potting apparatus of the present invention operates as follows.

The water supply bucket 20 is assembled by sliding the attachment and detachment protrusions 24 on the lower side of the water supply bucket 20 into the detachable groove 14 on the upper side of the drainage bucket 10 to form the drainage bucket 10- The water drainage bucket 10-water bucket 20 assembly is arranged as shown in Fig. 1 to make the wall body 1. At this time, the water supply tubes 20 disposed adjacent to each other are communicated with each other by the connection holes 22, and the respective drainage tubes 10 are also communicated with each other by the connection holes 12. Corner members 60 are then assembled at each corner of the wall 1 formed by the drainage buckets 10 -the bucket 20 assemblies.

Then, a plurality of flower pots (50) planted with plants are arranged inside the space formed by the wall (1). The drainage member 40 is installed on the bottom surface of the pot 50 and the end of the drainage inducing pipe 41 protruding outside the pot 50 is connected to the drainage hole 11 of the adjacent drainage tank 10 .

Then, the nozzle member (30) is placed on each of the pots (50). At this time, the support plate 31 of the nozzle member 30 is supported on the upper end of the pollen 50 and the water supply pipe 33 is connected to the water supply hole 21 of the adjacent water supply tube 20.

When the assembling of the water drainage bottle 10, the water supply bottle 20, the flowerpot 50, the drainage member 40 and the nozzle member 30 is completed, any one of the connection holes 22 of the water supply bottle 20, And the water supply hose (not shown) is connected to supply water. At this time, since the water supply tubes 20 are connected to each other, the water supplied by one water supply tube 20 continuously flows through the adjacent water supply tubes 20 to fill all the water supply tubes 20 with water do.

At this time, the water flowing into each of the water supply tubes 20 flows into the water supply pipe 33 of the nozzle member 30 through the water supply hole 21 and flows into the spray hole 33 of the ring- 35, and is supplied to the pollen 50.

The water supplied to the pollen 50 through the nozzle member 30 flows into the water discharge guide pipe 41 through the water supply hole 43 formed in the shielding plate 42 of the water discharge member 40 below the pollen 50, The inside of the drainage inlet 44 of the drainage pipe 40 is opened. The water introduced into the drainage inlet 44 flows into the drainage tank 10 through the drainage induction pipe 41 and is stored.

When the water inside the drain canister 10 is filled to a certain extent after a predetermined time has elapsed, the one corner member 60 of the drain canister 10 to which the drain hose 80 of the drain canister 10 is connected The direction of the drain hose 80 is adjusted so that the end of the drain hose 80 is located inside the drain or the separate container and the stopper (not shown) at the end of the drain hose 80 is removed. When the stopper of the drain hose 80 is disconnected, the water stored in the drain canister 10 is discharged to the outside through the drain hose 80. At this time, since the respective drain pipes 10 are communicated with each other, water stored in each drain pipe 10 can be continuously discharged into the adjacent drain pipe 10 and discharged through the drainage hose 80 .

As described above, according to the present invention, when water is supplied to the water supply tube 20, water is discharged through the plurality of nozzle members 30 connected to the water supply tube 20 and water is uniformly supplied to the upper side of the flowerpot 50 . The water dropped down to the lower part of the pots 50 is collected in the drainpipes 10 through the drainage member 40 and then discharged to the outside through the drainage hose 80 at a time, It is possible to prevent the pollution of the place where the pollen apparatus of the present invention is installed in the process.

In the above embodiment, the water supply hole 21 of the water supply tube 20 is always opened. Alternatively, the water supply hole 21 may be shielded or opened in the water supply tube 20 A separate stopper structure may be additionally provided or a flow rate control plate 90 may be provided to adjust the flow rate by adjusting the opening of the water supply hole 21 as shown in FIG.

In this embodiment, the flow rate regulating plate 90 is slidable in the left and right direction on the inner surface of the water supply tube 20, and a plurality of through holes (not shown) (Not shown). The upper end of the flow rate regulating plate 90 is formed to protrude outward from the upper end. Therefore, when the user holds the upper end portion of the flow control plate 90 by hand and moves it to the left and right, the through holes 91 having different sizes of the flow rate control plate 90 are connected to the water supply holes 21, And the flow rate through the water supply hole 21 is adjusted.

In this case, the flow rate regulating plate 90 manually adjusts the opening degree of the water supply hole 21 while moving left and right. Alternatively, the flow rate regulating plate 90 may be adjusted by using a known electromechanical driving device using a motor, a switch, 90 may be varied.

In addition, in the above-described embodiment, the water supply bucket 20 is assembled just above the drain bucket 10 to form a two-stage structure. However, as shown in Fig. 10, the water supply bucket 10 and the water supply bucket 20 The spacer block 5 may be detachably assembled to adjust the height of the water tub 20 to match the size of the flower pot 50. [ The spacer block 5 may be constructed using an extra drainage tube 10 or a water supply tube 20, but may be constructed using a separate rectangular parallelepiped box-shaped member.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the present invention as defined by the appended claims. And it is to be understood that such modified embodiments belong to the scope of protection of the present invention defined by the appended claims.

1: Wall 5: Spacer block
10: drain pipe 11: drain
12: connecting ball 14: detachable groove
20: water tank 21: water supply hole
22: connection hole 24: detachment projection
30: nozzle member 31: support plate
32: opening 33:
34: nozzle body 35:
40: drainage member 41: drainage pipe
42: shielding plate 43: water hole
50: Pot 60: Corner member
70: Connector 80: Drain hose
90: Flow control plate 91: Through hole

Claims (7)

A plurality of pots (50) in which plants are planted;
A plurality of water drainage tanks (10) arranged to surround the outside of the plurality of flower pots (50) and collecting the water discharged from the respective flower pots (50);
A plurality of water supply tubes 20 which are detachably coupled to the upper portions of the respective drain pipes 10 to form a wall surrounding the flowerpots 10 together with the drain pipes 10 and to store water to be supplied to the flowerpots 50, and;
And the water is supplied to the pots 50 by water from the water tub 20 to the upper side of the pots 50. [ A nozzle member (30) for supplying the nozzle member (30);
And a drain member 40 connecting the lower end of the pot 50 to the drain tank 10 to guide the water discharged from the pot 50 to the drain tank 10;
The plurality of drainage tanks 10 are formed in both side portions so that the connection holes 12 are formed to communicate with each other through the connection holes 12 to continuously flow water through the drainage tanks 10, The plurality of water supply tubes 20 are formed on both side surfaces of the water supply tubes 20 so as to penetrate through the connection holes 22 to communicate with each other through the water supply tubes 20, Wherein the first and second potting devices are arranged in the same plane. The nozzle assembly according to claim 1, wherein the nozzle member (30)
A plate-like support plate 31 having an opening 32 at the center thereof;
A water supply pipe (33) fixed to the support plate (31) and having one end communicated with one surface of the water supply tube (20);
A plurality of spray holes 35 are formed to communicate with the other end of the water supply pipe 33 from the lower side of the support plate 31 and through which the water flowing through the water supply pipe 33 is discharged to the outside And a ring-shaped nozzle body (34). 2. The apparatus according to claim 1, wherein the drainage member (40)
One end is connected to one side of the drain tube (10) through one side of the pot (50), and the water collected below the pot (50) flows into one side of the pot A drainage inducing pipe 41 formed to open the drainage inlet 44;
A plurality of water holes 43 are formed at the lower end of the pot 50 so as to shield the outside of the water inlet 44 of the water discharge induction pipe 41 and communicated with the water inlet 44 Characterized in that it comprises a shielding plate (42) in the form of an inverted 'U' shape. The water drainage bucket according to claim 1, wherein the corner portions of the wall formed by the water drainage tube (10) and the water supply tubes (20) communicate with each other by a curved connection pipe (70) Wherein the corner portion of the wall formed by the corner member (60) is shielded by the corner member (60). The granular potting device according to claim 1, wherein a spacer block (5) is detachably assembled between each drainage tank (10) and the water supply tube (20). The granular potting device according to claim 1, wherein a drain hose (80) made of a flexible corrugated pipe is connected to a lower end of any one of the plurality of drain pipes (10). The water supply system according to claim 1, wherein a water supply hole (21) connected to the nozzle member (30) is formed on one surface of the water supply tube (20) And a flow control plate (90) having a plurality of through holes (91) of different sizes for adjusting the water supply flow rate is provided movably in the left and right direction.

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