KR20140082554A - A Pot tray for under water supply system - Google Patents

Abstract

The present invention relates to a pot tray for bottom watering capable of maximizing the advantage of the bottom watering. The pot tray for bottom watering has mounting protrusions (112) on a bottom surface (110), wherein the bottom of each pot (11) of a connecting pot (10) planted with seedlings is mounted on each mounting protrusions (112). A water supply part (120) equipped with a water supply hose (20) is formed at one side of the bottom surface (110), and a drain part (130) is formed at the other side of the bottom surface (110). The bottom surface (110) is formed to be inclined downwardly toward the drain part (130) from the water supply part (120), and side walls (140) are installed in four directions of the bottom surface (110) in order to maintain a predetermined water level when water is filled in the pot tray. The drain part (130) comprises: a storage tank (132) formed at the lower side of the bottom surface (110); a drainage delaying maze (134) communicating with the storage tank (132); and a drain port (136) formed at the end of the drainage delaying maze (134).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [

[0001] The present invention relates to a pot support for receiving a bottom wall pipe, and it is an object of the present invention to provide a pot support for a bottom wall pipe, in which, when cultivating various crops such as strawberries or gardening seedlings, It is possible to prevent the spread of various infectious diseases such as anthrax in the seedling growing process while minimizing the use amount of water and nutrient solution. Especially, it is difficult to set up a large bench (bed) It is possible to maximize the advantage of the bottom watering at a low cost by simply mounting the connection port planted with the seedling on each port base without any burden on the installation cost.

In general, strawberry seedlings, various crops and gardening seedlings are cultivated in a facility house by using a sprinkler-like head pipe technique or a dotted hose-based drip pipe method. In this head pipe or drip irrigation method, Anthrax was spread widely in the whole nursery by dispersing water and nutrients from water droplets or drip hoses sprayed from sprinklers. There was a serious disadvantage of waste of water and nutrient solution. Time, materials, cost, and manpower.

As a method for solving the shortcomings of the head and mouth method, a bottom surface method has been developed and used. According to the related art related to the bottom surface method, there are a method of planting the water in the No. 245336, (Hereinafter referred to as " Prior Art 2 "), Utility Model Registration No. 220370, a bottom watering method for cultivating horticultural crops, and a system thereof (Hereinafter referred to as " Prior Art 3 ") and Utility Model Registration No. 254409 (hereinafter referred to as Prior Art 4).

On the other hand, in the bottom watering system disclosed in the above-mentioned prior arts 1 to 4, there is a problem in that it is difficult to perform sufficient drainage after supplying sufficient water and nutrient solution for a certain period of time, And there are technical difficulties in mass production of economical yet healthy seedlings.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a method for preventing the spread of various infectious diseases such as anthrax, This system maximizes the advantages of the bottom watering system by simply installing the connection port planted with the seedlings on each port base without inconveniencing the installation of the large bed in the system. The present invention provides a bottom port receiving port support which can be used as a bottom port.

In order to achieve the above-mentioned object, according to the first embodiment of the present invention, there is provided a water supply unit in which a bottom surface of a bottom surface of a connection port in which a bottom of each port of a connection plant is placed is formed, and a water supply hose is disposed on one side of the bottom surface And a drainage portion formed on the other side of the bottom surface, The floor surface is formed to be inclined downward from the water supply part to the drainage part. Side walls are provided on all sides of the bottom surface so as to maintain a predetermined water level when water is filled in the portage, A labyrinth for a drainage line communicating with the storage tank, and a drain port for the bottom end of the labyrinth.

In the second embodiment of the present invention, the drainage section is composed of the storage tank and the drain hole communicating with the outside from the storage tank without the maze for storing drainage of the first embodiment described above, and the drainage hose is connected to the drainage hole, When the valve is installed and the drain valve is closed, the water level in the port base is raised, and the bottom water is supplied to the inside of the connection port where the seedling is planted. After a certain time has elapsed, the water supply valve is shut off and the drain valve is opened And a drain pipe receiving port for discharging drain water as the level inside the port sink drops.

According to the third embodiment of the present invention, a protrusion is formed on the bottom surface in which the bottom of each port of the connection port planted with seedlings is placed, and a water supply unit is disposed on the left and right sides of the bottom surface, And a drain port formed at an intermediate portion of the bottom wall receiving port base. The bottom surface is formed so as to be inclined downward from the left and right water supply portions toward the middle drainage portion and side walls are provided on all sides of the bottom surface so as to maintain a predetermined water level when water is filled in the portage, The drainage unit includes a storage tank formed at a lower side of the bottom surface, a maze for reservoir communication communicated with the storage tank, and a bottom tube receiving port base including a drain at the end of the labyrinth.

In the bottom tube receiving port receiver according to the first and third embodiments, In a storage tank  Towards the drain side Step difference  And the cover can be removably covered on the maze for the drainage station.

On the maze for the drainage port located at the lower portion of the lid in the bottom tube receiving port receiver according to the first and third embodiments, In the reservoir  With stored water Nutrient solution  When you pass through a labyrinth maze, In nutrient solution  Included - seedlings planted Connection port  It is preferable that a filter for preventing the foreign matter from adhering to the maze is inserted.

Preferably, the filter comprises 1 to 5 mm Of thickness Open porosity Sponge  Non-woven, felt  Wherein the filter comprises water and water passing through the labyrinth, Nutrient  The water supply time suitable for the kind of the seedling or the cultivation characteristics can be set by changing the material or the porosity so as to also serve as a flow relaxation function that slows the flow rate of the water discharged.

More preferably, the cover Storage tank  On top of it. Storage tank  A filter screen is formed in a mesh form for filtering the foreign matter, Gripper  .

According to the embodiments of the present invention described above, when the water supply necessary for the lower surface water supply is performed, the amount of water supplied from the water supply hose on the water supply side or the amount of the nutrient solution Since the water level is maintained for a certain period of time, a sufficient amount of water can be supplied to each port. If the water and the nutrient solution are cut off through the water supply hose, the natural drainage works to fill the bottom surface of the port base The water can be completely drained and the environment suitable for the growth conditions of the seedlings can be created. In other words, according to the embodiments of the present invention, after water is supplied for a predetermined period of time, drainage is performed in all, thereby promoting the growth of seedlings and roots, and preventing spread of various infectious diseases such as anthrax due to low- And it is possible to uniformly feed the seedlings so that the seedlings can grow uniformly, and the seedlings can be effectively cultivated only with a minimum amount of water and nutrient solution.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a state of use of a bottom tube receiving port support according to a first embodiment of the present invention;
Fig. 2 is a sectional view taken along line A-A in Fig. 1,
3 is a sectional view taken along the line B-B in Fig. 1,
4 is a perspective view of a bottom tube receiving port support according to a first embodiment of the present invention,
5 is a plan view of a bottom tube receiving port support according to the first embodiment of the present invention,
6 is a bottom perspective view of a bottom tube receiving port base according to the first embodiment of the present invention,
7 is a perspective view of a bottom tube receiving port support according to a second embodiment of the present invention,
8 is a sectional view taken along the line C-C in Fig. 7,
FIG. 9 is a plan view showing the piping of the supply and drainage portions of the base pipe receiving port base shown in FIG. 7,
FIG. 10 is a perspective view of the bottom-wall-receiving-port receptacle according to the third embodiment of the present invention,
11 is a bottom perspective view of a bottom tube receiving port base according to a third embodiment of the present invention,
FIG. 12 is a plan view of a bottom tube receiving port support according to a third embodiment of the present invention,
13 is a sectional view taken along the line D - D in Fig. 12,
14 is a sectional view taken along the line E-E in Fig.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 to 6 show a bottom wall receiving port support 100 according to a first embodiment of the present invention. The bottom wall receiving port support 100 includes a protrusion (not shown) in which a lower end of each port 11 of the connection port 10, 112 is formed on the bottom surface 110 and a water supply part 120 is disposed on one side of the bottom surface 110 and a water supply hose 20 is disposed on the other side of the bottom surface 110, The bottom surface 110 is formed to be inclined downward from the water supply unit 120 toward the drainage unit 130. The water is filled in the bottom surface 110 at a predetermined water level The drainage part 130 includes a storage vessel 132 formed at a lower side of the bottom surface 110, a maze 134 for drainage connection connected to the storage vessel 132, And a drain port 136 at the end of the maze 134 for reservoir stationing.

The port support 100 according to the present embodiment has a plurality of the laying protrusions 112 for supporting the lower end of each port 11 of the connection port 10 on the inclined bottom surface 110, As the connection protrusion 112 is lowered so that the connection port 10 is positioned horizontally on the inclined bottom surface 110 and the lower portion of the protrusion 112 is closer to the water supply portion 120, Respectively.

In the present embodiment, the protuberant projections 112 are formed in a substantially columnar shape with a width of 4 lines and a length of 6 lines (see the plan view of FIG. 5), but the present invention is not limited thereto, It is also possible to make the size of the protrusions (diameter) small and to densely form the protrusions so as to be compatible with various specifications of the existing seedling port used or to be compatible with various seedling ports, However, it may be formed in a structure in which water and nutrient solution can be drained smoothly through the bottom surface 110.

The water supply unit 120 at one side of the bottom surface 110 may be formed in the side wall 140 so as to be able to install the water supply hose 20 to receive the water supply hose 20, A water supply hole (not shown) is formed at a predetermined interval in the water supply hose 20, so that water and nutrient solution can be supplied into the port support 100.

In the present embodiment, the water supply hose 20 is constructed such that a plurality of port supports 100 are continuously arranged horizontally and horizontally, as shown in FIG. 1, The bottom pots can be installed by placing the connection pots 10 on which the seedlings are planted. In this embodiment, a large bench (bed) is installed in a horizontal state in the existing bottoms watering system Compared with the case where the slope is adjusted, the installation of the bench facility is not necessary, and there is an advantage that the construction cost can be reduced as well as the construction time can be shortened and the labor cost can be reduced by omitting the bench facility.

The drainage unit 130 on the other side of the bottom surface 110 includes a storage tank 132 formed on the lower side of the bottom surface 110, a maze for storing drainage connected to the storage tank 132, And a drainage port 136 at the distal end of the maze 134 for reservoir storage.

The storage tank 132 is formed at a lower middle portion of the bottom surface 110 and collects the water and the nutrient solution flowing along the bottom surface 110 to remove water on the bottom surface .

5, the plurality of diaphragms 134a are arranged in parallel to each other so as to be shifted from each other to form a labyrinth in a staggered state, and the labyrinth 134 As shown in the sectional view of FIG. 2, a step is formed so as to be higher toward the drain port 136 side from the storage tank 132. A lid 138 is placed on the maze for reservoir 134, The height of the water level increases toward the drain port 136. As a result, when the drain port is filled with water and the inside of the port port 100 is filled up to a predetermined water level or higher, the water is drained before the drain port 136 is drained. When the water supply is shut off, the water level in the port base falls and gradually flows through the drain port 136 That will be written.

The height of the drain hole 136 should be lower than the lowermost height of the bottom surface 110 and higher than the bottom of the water tank 132. The height of the drain hole 136 should be greater than the height of the connection between the water tank 132 and the maze 134, So that it is located at a height of about 6 mm.

In this embodiment, a seal 139 for holding the watertightness is fitted around the lid 138 so that only the communication part between the water reservoir 132 and the maze 134 is opened when the lid 138 is covered on the maze 134, So that the water and the nutrient solution are firstly stored in the water storage tank 132 and discharged to the drainage port 136 via the maze 134 when the water is drained.

The lid 138 is preferably made of a transparent material so that the state of the labyrinth 134 can be visually confirmed. The upper surface of the lid 138 is provided with a hook or a handle for easily opening and closing the lid .

6, longitudinal reinforcing ribs 114 and 116 are longitudinally and laterally formed on the bottom surface of the port support 100. The longitudinal reinforcing ribs 116 are formed on the bottom surface of the port support 100 so that the port support 100 maintains a horizontal state The side of the water supply unit 120 is higher and the side of the drainage unit 130 is lower.

On the other hand, in order to prevent the flow of the port base 100 when the port base 100 is placed on a bed facility of a predetermined height without placing the port base 100 on the floor, It is preferable to form an anchor groove or the like.

7 to 9 are schematic views of a bottom tube receiving port support according to a second embodiment of the present invention and a use state thereof. In this embodiment, the basic configuration of the port support is the same as that of the first embodiment The shape of the one drainage unit 130 is further simplified. The drainage unit 130 of the present embodiment is similar to the drainage unit 130 of the first embodiment except that it has a storage tank 132 and a drain The drain hose 30 is connected to the drain port 136 and the drain valve V2 is installed at the end of the drain hose 30 to close the drain valve V2. The water level is increased and the bottom water is introduced into the connection port in which the seedlings are planted. The water level of the water level in the storage tank T, which is connected to the storage tank T, The water supply valve (V 1 is opened and the water supply valve V1 is shut off after a predetermined time has elapsed and the drain valve V2 is opened, the water level in the port 100 is lowered and drainage is performed, So that the water supply condition can be satisfied.

In this embodiment, it is preferable that the water supply valve (V1) and the drain valve (V2) are automatically controlled to be opened / closed by a timer so that the attraction force is not individually applied to the bottom surface water. It is preferable that the water supply valve provided in the water supply hose on the water supply side can be automatically controlled by a timer.

10 to 14, the bottom-wall-pipe receiving port 100 according to the third embodiment of the present invention includes the bottom-port-receiving-port-receptacle 100 according to the third embodiment of the present invention, An inlet protrusion 112 on which a lower end of the port 11 is placed is formed on a bottom surface 110 and a water supply hose 20 (see Figs. 1 to 4) is disposed on the left and right sides of the bottom surface 110, The bottom surface 110 is provided at the center of the bottom surface 110 with a drain 130 formed thereon and the bottom surface 110 is connected to the left and right water supply part 120 The side wall 140 is provided at four sides of the bottom surface 110 so as to maintain a predetermined water level when the inside of the port tray 100 is filled with water, The drainage unit 130 includes a storage tank 132 formed at a lower side of the bottom surface 110 and a drainage tank 132 connected to the storage tank 132. [ A resin stitching labyrinth 134 and a drain 136 at the end of the maze 134 for reservoir stations.

The port support 100 according to the present embodiment is also provided with an elevation protrusion 112 for supporting the lower end of each port 11 of the connection port 10 on the upper surface of the inclined bottom surface 110 as in the above- A plurality of the protrusions 112 are formed so that the connection port 10 can be positioned horizontally on the inclined bottom surface 110 so that a portion near the left and right water supply portions 120 is lowered And the heel gradually increases toward the middle drainage part 130 side.

The number of the protrusions 112 and the shape of the protrusions 112 are not limited to the number of the conventional protrusions 112 and the number of the protrusions 112. In the present embodiment, The size (diameter) of the protrusions may be reduced and the formation interval thereof may be formed to be small, so that the protrusions can be used for various seedling ports. However, the bottom surface 110 It can be formed into a structure in which drainage of water and nutrient solution can be performed smoothly.

The water supply unit 120 on the left and right sides of the bottom surface 110 may be formed in the side wall 140 so that the water supply hose 20 can be installed so that the water supply hose 20 can be mounted And a water supply hole (not shown) is formed at a predetermined interval in the water supply hose 20 so that water and nutrient solution can be supplied into the port support 100.

In the drawings of this embodiment, reference numeral 150 denotes a pipe fitting groove.

In the present embodiment, the drain 130 in the middle of the bottom surface 110 also has a reservoir 132, a maze for reservoir communication 134 connected to the reservoir 132, And a drain port 136 at the end of the stationary labyrinth 134.

The storage tank 132 is formed at a lower middle portion of the bottom surface 110 and collects the water and the nutrient solution flowing along the bottom surface 110 to remove water on the bottom surface .

The plurality of diaphragms 134a are parallel to each other and are staggered from each other and the diaphragm 134a is formed with a communicating portion 134b having a relatively higher level than the bottom of the maze 134 And the maze 134 is formed so as to have a higher floor height as it goes from the storage tank 132 toward the drain port 136. A cover 138 is placed on the maze for storage drain 134 The path of the labyrinth 134 is maximized and the water level is increased toward the drain port 136. When the water level of the port 100 is increased to a level higher than a predetermined level without discharging water simultaneously with the supply of water, And the amount of the nutrient solution can be minimized. When the water supply is shut off, the water level in the port base falls and the drain port 136 is opened The drainage is gradually done.

A seal (not shown) for holding watertightness is fitted around the lid 138 so that only the water reservoir 132 and the communicating portion 134b of the labyrinth 134 when covered on the labyrinth 134 It is preferable that the water and the nutrient solution are first stored in the water storage tank 132 and discharged to the drainage port 136 via the maze 134 when the water is drained.

It is preferable that the lid 138 is made to have a shape suitable for the engagement type of the lid 11 by using the resilient force of the lid itself so that it can be coupled onto the maze 134 and the storage tank 132, A bonding method using an adhesive or the like may be used.

In the present embodiment, the lid 138 can cover the water storage tank 132 together with the maze for water storage 134, but a portion corresponding to the water storage tank 132 can prevent foreign matter from flowing into the water storage tank 132 It is possible to prevent the situation in which the drainage cleaning operation is facilitated and the maze for drainage masonry 134 is clogged by the foreign material and the drainage operation is hindered by forming the filtering net 138a in a relatively dense mesh type that can be blocked.

Reference numeral 131 denotes a fixing jaw for fixing the lid 138 , and numeral 138b is a handle for holding the lid 138. [

On the other hand, on the maze for toilet seat 134 below the lid 138, In the storage tank 132  With stored water Nutrient solution  When passing through the reservoir station maze 134, In nutrient solution  Included - seedlings planted Connection port  And a filter 160 for preventing foreign substances flowing out from the air cleaner 134 from adhering to the maze 134 are provided.

The filter (160) mm Thin Open porosity Sponge  Non-woven, felt  The filter 160 prevents foreign matter from being stuck in the maze 134 to prevent the maze 134 from being closed, Nutrient  And the flow-rate relaxation function that slows the flow rate of the discharged water is also used to delay the time from the completion of the water supply to the completion of the drainage, By connection port  Water and Nutrient  Bottom Watering  The filter 160 can be set to a water supply time suitable for the kind of seedling or cultivation characteristics by changing the material or porosity of the filter 160. The filter 160 may be periodically replaced with a new one, Can be reused.

The port support according to the third embodiment of the present invention is also installed and used in the same manner as the first embodiment described above, and a duplicate description thereof will be omitted.

It should be noted that the filter 160 described in the third embodiment of the present invention is also applicable to the first embodiment of the present invention.

10: Connection port 11: Individual port
20: water supply hose 22: water supply hole
30: Drain hose 100: Port base
110: bottom surface 112:
120: water supply unit 130: drainage unit
132: Reservoir 134: Maze for reservoir reservoir
136: Drain 138: Cover
138a: Filter wire 138b: Handle
140: side wall 150: pipe laying groove
160: Filter V1: Water supply valve
V2: Drain valve T: Storage tank

Claims (10)

An elevation protrusion 112 is formed on the bottom surface 110 and a water supply hose 10 is disposed on one side of the bottom surface 110 so that the lower end of each port 11 of the connection port 10, And a drainage part 130 formed on the other side of the bottom surface 110, wherein the bottom surface receiving port base includes:
The bottom surface 110 is formed to be inclined downward from the water supply unit 120 to the drainage unit 130. The water level of the bottom surface 110 can be maintained at a predetermined level when water is filled in the portage. A sidewall 140 is provided and the drain portion 130 includes a reservoir 132 formed at a lower side of the bottom surface 110, a maze 134 for reservoir communication communicated with the reservoir 132, And a drain port (136) at the distal end of the bottom wall (134). An installation protrusion 112 is formed on the bottom surface 110 and a water supply hose is disposed on the left and right sides of the bottom surface 110 And a drainage unit 130 formed at a middle portion of the bottom surface 110. The bottom tray receiving port base 120 includes:
The bottom surface 110 is formed to be inclined downward from the left and right water supply units 120 toward the middle drainage unit 130. Water is supplied to the interior of the portage 100 in all directions of the bottom surface 110 A sidewall 140 is provided to maintain a predetermined water level when the sludge is filled and the sludge drainage unit 130 includes a sludge storage tank 132 formed at a lower side of the bottom surface 110, And a maze (134) and a drain port (136) at the end of the maze (134) for reservoir storage.
The method according to claim 1 or 2,
Wherein the maze (136) for reservoir storage is formed so as to have a higher stepped amount toward the drain port (136) from the storage tank (132).
The method according to claim 1 or 2,
And a lid (138) is detachably mounted on the maze (134) for reservoir stations.
The method of claim 4,
When the water and the nutrient solution stored in the storage tank 132 pass through the maze 134 for reservoir storage on the maze 134 for storing drainage located below the lid 138, And a filter (160) for preventing foreign substances flowing out from the maze (134) from being adhered to the maze (134).
The method of claim 5,
Wherein the filter (160) is made of any one of open pore sponges, nonwoven fabrics and felt having a thickness of 1 to 5 mm.
The method of claim 5,
The filter 160 sets the water supply time suitable for the kind of the seedling or the cultivation characteristics by changing the material or the porosity so as to also serve as a flow-rate relaxing action for slowing the water flow rate of the nutrient solution and the water passing through the maze 134 Wherein the bottom wall receiving port base is provided with a bottom wall.
The method of claim 4,
Wherein the cover (138) is covered on the storage tank (132), and a mesh screen (138a) is formed on the storage tank (132) in the form of a net for filtering foreign substances.
The method of claim 4,
Wherein the cover (138) is formed with a grip portion (138b).
An inlet protrusion 112 is formed on the bottom surface 110 and a water supply hose 20 is disposed on one side of the bottom surface 110 And a drainage part 130 formed on the other side of the bottom surface 110, wherein the bottom surface receiving port base includes:
The bottom surface 110 is formed to be inclined downward from the water supply unit 120 to the drainage unit 130. The water level of the bottom surface 110 can be maintained at a predetermined level when water is filled in the portage. The drainage unit 130 includes a storage tank 132 formed at a lower side of the bottom surface 110 and a drain port 136 communicated with the storage tank 132. The drainage hole 130 134) is connected to a drain hose (30) provided with a drain valve (V2), and the water level in the port base is adjusted by opening and closing the drain valve (V2).

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