KR20230078871A - Bottom irrigation pot cultivation device - Google Patents

Abstract

The present invention provides a bottom irrigation-type pot cultivation device comprising: a seating tray portion that is open at the top, has a sealed shape on the lower surface and the peripheral surface, and has a discharge hole formed on one side of the lower surface; a pot unit in which seedlings are planted in the planting layer filled therein, and which includes a plurality of pots spaced apart from each other in the seating tray unit; a nutrient solution spray unit installed on a seating tray and spraying the nutrient solution at an upward angle to a plurality of flower pots arranged on the seating tray; and a nutrient solution recovery unit that is connected to the discharge hole of the seating tray unit and collects the nutrient solution that is sprayed from the nutrient solution spray unit, stored in the seating tray unit, and then discharged through the discharge hole, and re-supplies the same to the nutrient solution spray unit. Therefore, a rock surface provided on the bottom of the flower pot evenly absorbs the nutrient solution supplied to the bottom of the flower pot seated on the seating tray through the nutrient solution spray part, and then by supplying the nutrient solution to the roots of the seedlings through the topsoil, the nutrient solution can be supplied evenly to the roots of the seedlings regardless of the position of the pot placed on the seating tray. A control means sprays a certain amount of nutrient solution that the pot can absorb into the seating tray, and the amount of nutrient solution can be adjusted according to the seedlings growing in the pot. As the nutrient solution is sprayed through the spray nozzle, the same comes into contact with more air and the amount of dissolved oxygen increases.

Description

Bottom irrigation pot cultivation device {Bottom irrigation pot cultivation device}

The present invention relates to a bottom irrigation type pot cultivation device, and more particularly, to a bottom irrigation type pot cultivation device for growing seedlings by supplying a nutrient solution to the roots of the seedlings through the bottom of the pot in which the seedlings are planted.

Referring to the background art disclosed in Korean Patent Publication No. 2010-0065962, generally, since agriculture in Korea has been developed mainly with rice farming, horticultural crops such as fruit trees, vegetables, and flowers have been relatively neglected.

However, consumption of horticultural crops is increasing as national income increases and living standards are rapidly improving, and since the launch of the WTO, there has been a growing recognition that it is a growing facility (house cultivation) for crops with international competitiveness due to the opening of imports of foreign agricultural products. are newly improved.

In general, the cultivation of horticultural crops requires the creation of an optimal environment so that crops can be produced with the highest quality. In particular, the most important factor among these environmental factors is that appropriate water supply must be provided for the growth of crops. Horticultural crops have a shorter growth period than food crops and have a higher water requirement than food crops, as they have a higher biological yield per unit area. Plants generally require 300 to 900 liters of water to produce 1 kg, and the key is how to properly irrigate the water needed for growth. Because it has a great influence, it is because it determines the success or failure of horticultural crop farming.

1 is a perspective view illustrating a conventional horticultural bottom irrigation bed device, and FIG. 2 is a cross-sectional view illustrating a conventional horticultural bottom irrigation bed device.

1 and 2, the conventional horticultural bottom irrigation bed device is located on a table, and includes a main body 1, irrigation channels 2 formed along both sides of the main body 1, and the irrigation A part of the furnace 2 is provided with a nonwoven fabric 3 that absorbs and moves water to supply water to the flower pot P.

This conventional horticultural bottom irrigation bed device has a problem in that water is not sufficiently supplied to the pot (P) located in the center of the main body (1). This is because the non-woven fabric 3 supplies water to the flowerpot P by using a capillary phenomenon, and the capillary phenomenon reduces the water absorption capacity as the distance from the water supply source increases.

Therefore, crops grown in pots P located in the center of the main body 1 have a problem in that their growth rate is slower than crops grown in pots P closer to both sides of the main body 1. In order to solve the problem, the arrangement of flower pots must be changed frequently.

The present invention was created to solve the above problems, and rock wool is provided on the bottom of a pot in which seedlings are planted, and the rock wool absorbs the nutrient solution supplied to the bottom of the pot seated on the seating tray through the nutrient solution spraying unit. It is supplied to the roots of the seedlings through the nutrient solution so that the nutrient solution is evenly supplied to the roots of the seedlings regardless of the location of the pots on the growth bed, so that the growth rate of the seedlings can be kept constant, and a certain amount of Its purpose is to provide a bottom irrigation type pot cultivation device that enables spraying of the calculated amount of nutrient solution.

In order to achieve the above object, the present invention has an upper portion is open and the lower surface and the circumferential surface have a closed shape, the seating tray portion is formed with a discharge hole on one side of the lower surface; A pot unit including pots in which seedlings are planted in a planting layer filled therein, and a plurality of pots spaced apart from each other in the seating tray unit; a nutrient solution spraying unit installed on the seating tray unit and spraying the nutrient solution at an upward slope to a plurality of flower pots disposed on the seating tray unit; And a bottom pipe including a nutrient solution recovery unit that is connected to the discharge hole of the seating tray unit, collects the nutrient solution discharged through the discharge hole after being sprayed from the nutrient solution spray unit, stored in the seating tray unit, and then supplied to the nutrient solution spray unit again. It provides a plant pot cultivation device.

In the bottom irrigation type pot cultivation device according to the present invention, a support table portion located at a lower portion of the seating tray portion and supporting the seating tray portion from a lower portion may be further included, and the seating tray portion includes a lower plate in which the discharge hole is formed and , It may include a side plate that is bent upward from both sides of the lower plate, and the nutrient solution spraying unit may be installed at a connection between the lower plate and the side plate.

The planting layer filled inside the flowerpot is topsoil in which seedlings are planted, and rock wool disposed below the topsoil and partially exposed to the outside through an absorption hole formed in the pot and absorbing the nutrient solution filled in the seating tray. can include

The nutrient solution spray unit may include a plurality of spray nozzles installed on the seating tray and spraying the nutrient solution in an upward inclination to a plurality of flower pots, and a connection hose connecting the plurality of spray nozzles and having one end connected to the nutrient solution collection unit. there is.

The nutrient solution recovery part has a cylindrical shape with a hollow inside, and is installed at the lower part of the nutrient solution discharge pipe mounted on the seating tray to pass through the discharge hole, and the nutrient solution discharge pipe, and recovers the nutrient solution discharged through the nutrient solution discharge pipe. a nutrient solution collection tube, a nutrient solution supply means provided in the nutrient solution collection container and connected to the nutrient solution spraying unit, and supplying the nutrient solution in the nutrient solution collection container to the nutrient solution spray unit; It may include a control means for controlling the operation of the nutrient solution supply means so that a certain amount of calculated nutrient solution is supplied to the seating tray unit.

One end of the nutrient solution discharge pipe positioned in the seating tray unit through the discharge hole may be located above the lower plate of the seating tray unit.

In the bottom irrigation type pot cultivation device according to the present invention, the rock wool provided on the bottom of the pot absorbs evenly the nutrient solution supplied to the bottom of the pot seated in the seating tray through the nutrient solution spraying unit, and then supplies it to the roots of the seedling through the top soil. Therefore, the nutrient solution can be equally supplied to the roots of the seedlings regardless of the position of the potted plants seated on the seating tray part, and the control means sprays a certain amount of nutrient solution calculated for the potted plant to the seating tray part to increase The amount of nutrient solution can be adjusted accordingly, and as the nutrient solution is sprayed through the spray nozzle, more air contact is made and the amount of dissolved oxygen increases.

1 is a perspective view for explaining a conventional horticultural bottom irrigation bed device;
Figure 2 is a cross-sectional view for explaining a conventional horticultural bottom irrigation bed device;
3 is a view schematically showing a bottom irrigation pot cultivation apparatus according to an embodiment of the present invention;
4 is a view schematically showing a state in which the nutrient solution filled in the seating tray shown in FIG. 3 is recovered to the nutrient solution recovery unit and then sprayed to the potted plant unit through the nutrient solution spraying unit.
5 is a view schematically showing a state in which the nutrient solution spraying unit is installed in the seating tray shown in FIG. 3 and the nutrient solution spraying unit is connected to the nutrient solution recovery unit.

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings. Prior to this, the terms or words used in this specification and claims should not be construed as being limited to ordinary or dictionary meanings, and the inventor appropriately uses the concept of terms in order to describe his/her invention in the best way. It should be interpreted as a meaning and concept consistent with the technical spirit of the present invention based on the principle that it can be defined in the following way.

Referring to FIGS. 3 to 5, the bottom irrigation plant pot cultivation apparatus 100 according to an embodiment of the present invention includes a seating tray unit 110, a potted plant unit 120, a nutrient solution spraying unit 130, and a nutrient solution It includes a recovery unit 140 and may further include a support table unit 150 .

Referring to FIGS. 3 and 4 , the seating tray unit 110 has an open upper portion and a closed lower and circumferential surface, and includes a lower plate 112 and a side plate 114 . A flower pot part 120 is seated on the lower plate 112, and a discharge hole 112a penetrating the lower plate 112 is formed at one side of the lower plate 112, and the pot part 120 is seated thereon. The nutrient solution sprayed from the nutrient solution spraying unit 130 described later is filled in the tray unit 110, and the nutrient solution filled in the seating tray unit 110 passes through the discharge hole 112a to the seating tray unit 110. is discharged to the outside of

A flower pot unit 120 is seated on the lower plate 112 of the seating tray unit 110, and the flower pot unit 120 includes a plurality of flower pots 122, and a planting layer is formed inside each flower pot 122. 124 is filled, and seedlings S are planted in the planting layer 124. It is preferable that the plurality of flower pots 122 are spaced apart from each other at equal intervals on the upper part of the lower plate 112, and as they are spaced apart from each other at equal intervals from the upper part of the lower plate 112, the seating tray The nutrient solution filled in the unit 110 is evenly absorbed and supplied to the planted seedlings S.

Referring to FIG. 5 , the planting layer 124 provided inside the pot 122 includes topsoil 124a and rock wool 124b, and the topsoil 124a is the inner upper side of the pot 122. and seedlings S are planted on the top soil 124a.

Rock wool 124 b is disposed under the bed soil 124 a, and a portion of the rock wool 124 b is exposed to the outside of the flower pot 122 through an absorption hole (not shown) formed in the flower pot 122 to settle therein. The nutrient solution filled in the tray unit 110 is absorbed and the nutrient solution is supplied to the roots of the seedlings S through the soil 124a.

The rock wool 124b serves to absorb and store the nutrient solution supplied to the top soil 124a, and the top soil 124a may be replaced with masato or sand. The rock wool 124b has a very high water absorption rate, so that it absorbs the nutrient solution filled in the seating tray part 110 and evenly supplies it to the top soil 124a. Since the top soil 124a and the rock wool 124b are general materials widely used in pot cultivation, a detailed description thereof will be omitted.

3 to 5, a nutrient solution spraying unit 130 is installed in the seating tray unit 110, and the nutrient solution spraying unit 130 is installed on both sides of the seating tray unit 110 to It serves to spray the nutrient solution with an upward slope to the plurality of pots 122 seated in the unit 110. The nutrient solution sprayed from the nutrient solution spraying unit 130 is filled in the seating tray unit 110, and the filled nutrient solution is absorbed by the rock wool 124b provided in the plurality of flower pots 122 and planted in the flower pot 122. It is supplied by the roots of the raised seedlings (S).

The nutrient solution spray unit 130 includes a plurality of spray nozzles 132 and a connection hose 134 for supplying nutrient solution to the plurality of spray nozzles 132. The connection hose 134 connecting the plurality of spray nozzles 132 is connected to the nutrient solution supplying means 144 of the nutrient solution collecting unit 140 to be described later, and the nutrient solution supplied through the nutrient solution supplying means 144 is stored as above. Through the plurality of spray nozzles 132, the flower pot 120 seated on the lower plate 112 is sprayed.

The lower plate ( Nutrient solution is not sprayed only on both sides of 112), but the entire lower plate 112 is sprayed with nutrient solution. In addition, by spraying the nutrient solution using a plurality of spray nozzles 132, more air contact is made with the nutrient solution, thereby increasing the amount of dissolved oxygen.

The nutrient solution sprayed to the seating tray unit 110 is recovered by the nutrient solution recovery unit 140, and the nutrient solution recovery unit 140 is connected to the discharge hole 112a of the seating tray unit 110. The nutrient solution collection unit 140 supplies nutrient solution from the seating tray unit 110 to the flower pot unit 120 after being sprayed from the nutrient solution spraying unit 130, and then discharged through the discharge hole 112a. It serves to recover the nutrient solution that can be supplied to the nutrient solution spraying unit 130 again.

The nutrient solution collection unit 140 includes a nutrient solution discharge pipe 141, a nutrient solution collection container 142, a nutrient solution supply means 143, and a control means (not shown), and includes a nutrient solution collection container (not shown). can include more. The nutrient solution discharge pipe 141 has a cylindrical shape with a hollow inside, and is mounted to pass through the discharge hole 112a formed in the lower plate 112 of the seating tray unit 110, and the seating tray unit 110 The nutrient solution filled in is discharged to the nutrient solution recovery container (142).

One end of the nutrient solution discharge pipe 141 mounted in the discharge hole 112a is preferably located above the lower plate 112 of the seating tray portion 110, and the filling of the seating tray portion 110 Among the nutrient solution, the nutrient solution filled above the one end of the nutrient solution discharge pipe 141 is discharged to the nutrient solution collection container 142 through the nutrient solution discharge pipe 141, and the discharge hole 112a is the lower plate 112 Only one may be formed in the central portion of one side, but is not limited thereto, and a plurality may be formed on one side of the lower plate 112. Preferably, the nutrient solution discharge pipe 141 is mounted in the discharge hole 112a, and the height of the nutrient solution discharge pipe 141 is adjusted.

A nutrient solution collection container 142 is installed at the bottom of the nutrient solution discharge pipe 141, and the nutrient solution collection container 142 collects the nutrient solution discharged from the seating tray unit 110 through the nutrient solution discharge pipe 141. do.

The nutrient solution supply means 143 is provided in the nutrient solution collection container 142 and is connected to the connection hose 134 of the nutrient solution spraying unit 130 to transfer the nutrient solution recovered to the nutrient solution collection container 142 through the connection hose ( 134) serves to provide supply power supplied to the spray nozzle 132, and a motor is preferably used as the nutrient solution supply means 144.

It is preferable that the nutrient solution supply means 143 is connected to a control means (not shown) so that the operation is controlled by the control means (not shown), and the control means (not shown) can be absorbed by the pollen 122. It serves to control the operation of the nutrient solution supply means 143 so that a certain amount of calculated nutrient solution is supplied into the seating tray unit 110. The calculated amount of nutrient solution that can be absorbed by the flower pot 122 can be supplied into the seating tray unit 110 by the control means (not shown), and supplied when the nutrient solution is excessively supplied to the seating tray unit 110 After recovering the nutrient solution to the nutrient solution collection container 142 through the nutrient solution discharge pipe 141, it can be reused.

Referring to FIG. 3, it is preferable that a through hole 114a through which the connection hose 134 passes is formed in the side plate 114 of the seating tray part 110, and the through hole 114a has the through hole It is preferable that a packing member (P) for packing between (114a) and the circumferential surface of the connection hose 134 is mounted, and the through hole 114a and the connection hose 134 are The nutrient solution is not discharged between the circumferential surfaces of the.

The nutrient solution collection container 142 may be connected to a nutrient solution storage container (not shown) by a connection pipe (not shown), and the nutrient solution container (not shown) serves to separately store the nutrient solution recovered by the nutrient solution collection container. The nutrient solution stored in the nutrient solution storage container (not shown) may be supplied to the planter 120 seated in the seating tray 110 through the nutrient solution spraying unit 130, and depending on the cultivation environment, the nutrient solution collection container 142 It is preferable to supply the recovered nutrient solution to the planter unit 120 or to supply the nutrient solution stored in the nutrient solution storage tube (not shown) to the planter unit 120 by installing a nutrient solution storage tube (not shown) separately.

3 and 4, a support table 150 is installed under the seating tray unit 110, and the support table 150 serves to support the seating tray unit 110 from the lower portion. Since the seating tray part 110 is supported by the support table 150, the nutrient solution filled in the seating tray part 110 is smoothly recovered to the nutrient solution collecting part 140.

The control unit (not shown) sprays a calculated amount of nutrient solution that can be absorbed by the flower pot 122 to the seating tray 110 to adjust the amount of nutrient solution according to the seedlings growing in the flower pot 122. The rock wool 124b provided on the lower surface of the flower pot 122 seated on the lower plate 112 of the tray unit 110 evenly absorbs the nutrient solution supplied to the bottom surface of the flower pot 122 through the nutrient solution spraying unit 130. After doing so, it is supplied to the roots of the seedlings (S) through the soil (124a), so that the nutrient solution can be equally supplied to the roots of the seedlings (S) regardless of the position of the flower pot 122 seated on the seating tray unit 110. .

When the nutrient solution is excessively supplied to the seating tray unit 110, the nutrient solution can be discharged from the seating tray unit 110 and then reused, thereby preventing contamination of the room by the nutrient solution and reducing waste of the nutrient solution. As it is sprayed through the spray nozzle 132, more air contact is made and the amount of dissolved oxygen increases.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is only exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

100: bottom irrigation pot cultivation device 110: seating tray
112: lower plate 114: side plate
120: flower pot 120: flower pot
130: nutrient solution spray unit 132: spray nozzle
134: connection hose 140: nutrient solution recovery unit
141: nutrient solution discharge pipe 142: nutrient solution recovery container
143: Nutrient storage container 144: Nutrient solution supply means
150: support table part

Claims (6)

The upper portion is open, the lower surface and the circumferential surface have a closed shape, and a seating tray unit having a discharge hole formed on one side of the lower surface;
A pot unit including pots in which seedlings are planted in a planting layer filled therein, and a plurality of pots spaced apart from each other in the seating tray unit;
a nutrient solution spraying unit installed on the seating tray unit and spraying the nutrient solution at an upward slope to a plurality of flower pots disposed on the seating tray unit; and
A bottom irrigation formula including a nutrient solution collection unit connected to the discharge hole of the seating tray unit, sprayed from the nutrient solution spray unit, stored in the seating tray unit, and then discharged through the discharge hole to collect and re-supply the nutrient solution to the nutrient solution spray unit. potted plant.
The method of claim 1,
Further comprising a support table portion positioned below the seating tray portion and supporting the seating tray portion from a lower portion,
The seating tray part,
A lower plate on which the discharge hole is formed;
Including side plates that are bent upward from both sides of the lower plate,
The bottom watering type pot cultivation device, characterized in that the nutrient solution spraying unit is installed at the connection portion of the lower plate and the side plate.
The method of claim 1,
The planting layer filled inside the pot,
The soil in which the seedlings are planted,
A bottom watering type pot cultivation device comprising rock wool disposed under the top soil and partially exposed to the outside through an absorption hole formed in the pot and absorbing the nutrient solution filled in the seating tray part.
The method of claim 1,
The nutrient solution spraying unit,
A plurality of spray nozzles installed in the seating tray unit and spraying the nutrient solution in an upward inclination to a plurality of flower pots;
Bottom watering pot cultivation device, characterized in that it comprises a connection hose connecting the plurality of spray nozzles and one end connected to the nutrient solution recovery unit.
The method of claim 1,
The nutrient solution recovery unit,
A nutrient solution discharge pipe having a hollow cylindrical shape and mounted on the seating tray to pass through the discharge hole;
A nutrient solution recovery passage installed at the bottom of the nutrient solution discharge pipe and recovering the nutrient solution discharged through the nutrient solution discharge pipe;
Nutrient solution supply means provided in the nutrient solution collection container and connected to the nutrient solution spraying unit to supply the nutrient solution in the nutrient solution collection container to the nutrient solution spraying unit;
A bottom watering type pot cultivation device comprising a control means connected to the nutrient solution supply means to control the operation of the nutrient solution supply means so that a certain amount of calculated nutrient solution that can be absorbed by the potted plant unit is supplied to the seating tray part.
The method of claim 5,
Bottom watering type pot cultivation device, characterized in that one end of the nutrient solution discharge pipe located in the seating tray portion through the discharge hole is located above the lower plate of the seating tray portion.

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