KR101704401B1 - Orchid cultivation device - Google Patents

Abstract

An egg cultivation apparatus of the present invention is disclosed. According to an aspect of the present invention, there is provided a method of manufacturing a plant, comprising: a plurality of ports having a body planted with plants and having an opening formed in the body; A holder having a through hole formed at a predetermined interval in the longitudinal direction so that the plurality of ports are respectively installed; A culture liquid supply unit connected to the cradle and spraying the culture liquid toward the port; And a control unit for controlling the culture liquid supply unit.

Description

I am cultivating device {Orchid cultivation device}

TECHNICAL FIELD The present invention relates to an egg cultivation apparatus, and more particularly, to an egg cultivation apparatus capable of promoting growth of a egg plant and a plant through continuous circulation hydroponic cultivation structure.

Generally, flower cut flowers, which are flowers used for flowers, bouquets, flower baskets, wreaths, etc., are cut by peduncle, peduncle or branch, and then they are kept in a certain size for 3 to 5 years or more. Through this process, the plant is left, and the process of selling the flower is repeated. Therefore, the pots for such plants are important in that they play a role in promoting the root environment so that the plants can grow well in a period of 3 to 5 years. In the case of vinyl pots used in the past, there is a problem that the organic environment medium, that is, the culture soil or artificial soil, bark and conception are decomposed and the root environment becomes poor due to lack of space according to the growth. Therefore, it needs to be transferred to large size flowerpot. In this case, additional bark and conception are used frequently, and the cost of production increases due to the recent increase in conception and baking cost.

In addition, conidia and bark used as porcine larvae are mostly organic media, and when used for a long time, decomposition of the medium may cause the horn environment to deteriorate drastically and damage the roots.

In addition, the use of pots without roots causes roots to pop out and become entangled with plants in other pots. In this case, there is also a problem that a single disease is likely to spread. Especially, when the root of orchid plant is damaged, it is hard to recover and the growth of roots which synthesize cytokinin necessary for the induction of rhizome must be maintained vigorously for the continuous production of rhizome.

The egg cultivation apparatus according to the embodiment of the present invention is capable of promoting growth by providing a structure of a non-cultivated cultivation method among circulating hydroponic cultivation methods so that the production of flora can be continued.

According to an aspect of the present invention, there is provided a method of manufacturing a plant, comprising: a plurality of ports in which eggs and plants are planted; a cradle formed in a hollow tube shape and having through holes through which the plurality of ports are inserted, A culture liquid supply unit for injecting a culture liquid toward a port inside the cradle, and a control unit for controlling the culture liquid supply unit, wherein the port has upper, lower and lateral openings to form a frame And a mesh net enclosing a side and a lower periphery of the case, wherein the netting shields the passage of eggs and plant roots planted in the port, and permits the permeation of the culture liquid sprayed through the culture liquid supply unit And has a mesh size ranging from 40 to 100. When the roots of eggs and plants are stretched as they grow outside the case And the opening of the mesh is disposed in a state of being closely attached to the upper portion of the case through a tightening device so as to prevent the mesh from being separated from the case in the course of elongating the mesh, A cultivation apparatus can be provided.

In addition, a plurality of the cradles may be provided so that the spacing between the cradles can be adjusted.

Further, a frame for supporting the cradle may be further provided, and a wheel may be installed under the frame and moved together with the cradle.

The culture liquid supply unit may further include: a culture liquid tank storing the culture liquid; A spraying part installed in the mount for spraying the culture solution; A driving unit having a motor and a pump for supplying the culture liquid from the culture liquid tank to the jetting unit; And a drain pipe connected to the cradle and discharging the culture liquid.

Further, the drain pipe may be connected to the culture tank.

The injection unit may include a supply hose connected to the driving unit to receive the culture liquid and installed inside the cradle; And a nozzle connected to the supply hose to spray the culture liquid.

The supply hose may also be installed in the longitudinal direction of the cradle, and the nozzles may be connected to the supply hose to be located between the ports.

In addition, the supply hose and the nozzle may be located on both sides of the cage in the longitudinal direction.

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In addition, the mesh may have hydrophobicity.

In addition, the plant may be used for cut flower cultivation.

The egg cultivation apparatus according to an embodiment of the present invention has a circulatory hydroponic cultivation structure of the spray cultivation system, which enables the production of flora and fauna of a plant to be continuously made and the growth can be promoted.

In addition, it is possible to secure space without changing the port according to the growth of the plant, and it is possible to easily replenish the nutrient and to ventilate the plant, thereby maintaining good plant roots environment, and thus it is possible to cultivate plants with good quality.

In addition, the cost of cultivation can be reduced by significantly reducing the amount of fertilization and bark use that have recently risen in price.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention will be described in detail with reference to the following drawings, which illustrate preferred embodiments of the present invention, and thus the technical idea of the present invention should not be construed as being limited thereto.
1 is a perspective view schematically showing an egg cultivation apparatus according to a preferred embodiment of the present invention.
FIG. 2 is a sectional view showing a jetting section provided in a cradle of an egg cultivation apparatus according to a preferred embodiment of the present invention. FIG.
3 is an exploded perspective view showing a port of an egg cultivation apparatus according to a preferred embodiment of the present invention.
Fig. 4 is an assembled perspective view of Fig. 3; Fig.

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

1 is a perspective view schematically showing an egg cultivation apparatus according to a preferred embodiment of the present invention.

1, an egg cultivation apparatus 100 according to an embodiment of the present invention includes a pot 110 capable of planting a plant 10, a cage 120 on which a port 110 is installed, a cage 120, A culture liquid supply unit 140 for spraying the culture liquid toward the port 110, and a control unit 150 for controlling the culture liquid supply unit 140. [

3 and 4, the port 110 includes a case 112 having a receiving space for planting plants (see 10 'in FIG. 1), a mesh 112 surrounding a part of the case 112 And a tightening device 116 for fixing the mesh 114 and the mesh 114 to the case 112.

The case 112 is provided in the form of a flowerpot to plant the plant 10. Specifically, an opening 112b is formed in the body 112a connecting the upper and lower portions of the case 112 and the upper portion and the lower portion. That is, the case 112 is made to hold only the outer shape of the pollen. A mesh 114 is installed to prevent the roots of the plant 10 planted in the case 112 from escaping through the opening 112b.

The mesh 114 is provided so as to smoothen the bottom of the case 112 and the body. The mesh 114 has a radial effect to prevent the roots of the plants 10 from becoming entangled with each other, and at the same time, the mesh size of the mesh 114 can be adjusted so that the culture liquid can be sprayed on the roots. At this time, considering the rooting effect and the water permeability of the culture liquid, the mesh size can be adjusted to 40 to 100 mesh. In other words, moisture permeability is good because it does not take moisture inside the port and nutrition can be supplied effectively.

In addition, the netting 114 may have elasticity to secure space along the roots and may have hydrophobicity for effective supply of the culture medium to the roots. If the mesh 114 absorbs moisture, some of the culture fluid may be absorbed by the mesh 114 rather than the roots.

The tightening device 116 serves to prevent the mesh 114 from escaping from the case 112. That is, a device may be required to prevent the mesh 114 from separating from the case 112 in accordance with the roots, so that a string or rubber band that can secure the mesh 114 to the top of the case 112 A tightening device can be provided.

Referring again to FIG. 1, a plurality of the ports 110 are provided and installed in the cradle 120.

The cradle 120 has a through hole 121 formed at a predetermined distance in the longitudinal direction so that the plurality of ports 110 are respectively installed, and a drain port (not shown) through which the culture liquid is discharged. The holder 120 has a hollow tube shape and is provided with a jetting portion 142 and a drainage pipe 145 of a culture medium supply unit 140 to be described later. A plurality of the cradles 120 are arranged so that the spacing between the cradles 120 can be adjusted. For example, the cradle 120 is supported by a frame 130, and a wheel 132 is installed under the frame 130. At this time, the frame 130 is provided to support the respective stand 120 and can be moved together with the stand 120 through the wheel 132. [ Adjusting the spacing of the plurality of cradles 120 is intended to prevent the plant 10 from tangling with neighboring plants 10 as they grow.

Although it has been shown and described that the cradle 120 is spaced from each other by the wheels 132 formed on the frame 130, the present invention is not limited thereto, and if the spacing between the cradles 120 is adjustable, It should be understood that it is free.

Meanwhile, it is preferable that the cradle 120 installed on the frame 130 is supported to be inclined at a predetermined angle in one direction. This is for collecting and discharging the culture liquid dropped to the bottom as a part of the culture liquid injected toward the port 110 in the holder 120 falls to the bottom of the platform 120. Thus, the holder 120 can be tilted and supported on the frame 130 in a direction in which a drain hole (not shown) is formed, that is, a direction in which a drain pipe 145 to be described later is installed.

The culture liquid supply unit 140 is connected to the cradle 120 and serves to spray the culture liquid toward the port 110. More specifically, the culture liquid supply unit 140 includes a culture liquid tank 141 for storing the culture liquid, a jetting section 142 provided in the platform 120 for jetting the culture liquid, a jetting section 142 A driving part 144 having a pump 144b and a motor 144a for supplying a culture liquid to the culture medium and a drain pipe 145 connected to the cradle 120 for discharging the culture liquid.

The jetting section 142 is configured to receive the culture liquid stored in the culture liquid tank 141 through the driving section 144 and inject the culture liquid toward the port 110 installed in the holder 120. 2, the jetting unit 142 includes a supply hose 142a connected to the driving unit 144 to receive the culture liquid and installed inside the loading stand 120, and a supply hose 142b connected to the supply hose 142a. And a nozzle 142b for spraying the culture liquid.

The supply hose 142a is installed in the longitudinal direction of the mount 120. The supply hose 142a is made of a soft hose and may be provided to have a predetermined diameter or more for smooth injection of the culture liquid. For example, the supply hose 142a may be used as a soft hose having a diameter of 3 mm or more.

A plurality of nozzles 142b are provided and are connected to the supply hose 142a by a predetermined distance in the longitudinal direction of the supply hose 142a. At this time, the nozzle 142b may be connected to the supply hose 142a so as to be positioned between the port 110 and the port 110 installed in the mount 120. This is so that the culture liquid injected from the nozzle 142b is sprayed uniformly and abundantly in the port 110. [ The nozzle 142b rotates in a sprinkler type and can spray the culture liquid toward the adjacent port 110. [

The supply hose 142a and the nozzle 142b may be installed on both sides of the mount 120 in the longitudinal direction. This is to ensure that the culture liquid is sprayed uniformly and abundantly in the port 110. [

Although the supply hose 142a and the nozzle 142b are shown to be installed inside the mount 120, the present invention is not limited thereto. Only the nozzle 142b may be installed inside the mount 120 . That is, if the culture liquid injected through the nozzle 142b is not leaked to the outside, the installation position and the installation structure of the jetting unit 142 can be variously changed.

The supply hose 142a is connected to the two cradles 120 so as to supply the culture liquid through one driving unit 144. However, the present invention is not limited thereto. Alternatively, one cradle 120 may be provided with one The culture liquid may be supplied through the driving unit 144 or the culture liquid may be supplied to the three or more cradles 120 through one driving unit 144. [

The drain pipe 145 connects the cradle 120 and the culture tank 141 so that the culture liquid injected through the jetting unit 142 is stored again in the culture tank 141. That is, the supply line in which the culture liquid is supplied and the drain line in which the culture liquid is drained are connected to the same culture liquid tank 141, so that they can be circulated without waste of the culture liquid.

The control unit 150 is a normal controller that not only supplies power to the culture solution supply unit 140 but also controls the culture solution supply unit 140 to supply the culture solution for a certain period of time and for a predetermined period of time. That is, the driving of the pump 144b and the motor 144a for supplying the culture liquid can be controlled at a constant cycle by using the set timer means or the like. For example, the culture is sprayed for 10 minutes at intervals of 30 minutes, which can be controlled at intervals of 24 hours.

As described above, through the egg cultivation apparatus 100 having the spray-growing method, it is possible to continuously produce the flower of the plant 10 and promote the growth. Also, it is possible to secure the space without changing the port 110 according to the plant roots, and it is possible to improve the nutritional supplement and ventilation, and to keep the plant roots environment well, and thus to grow the plant for the good quality of the cut flowers. Do.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It will be understood that various modifications and changes may be made without departing from the scope of the appended claims.

100: I cultivation apparatus 110: Port
112: Case 114: Mesh
120: cradle 130: frame
140: Culture medium supply unit 150: Control unit

Claims (12)

A plurality of ports through which plants and plants are planted and a through hole in the form of a hollow tube in which the plurality of ports are inserted and held so as to be spaced apart from each other by a predetermined distance in the longitudinal direction; And a control unit for controlling the culture liquid supply unit,
Wherein the port includes a case having a top, a bottom and an opening at a lateral side to form a frame, and a bag-like net surrounding the side and bottom circumference of the case,
The mesh has a mesh size ranging from 40 to 100 to allow permeation of the culture liquid sprayed through the culture liquid supply unit while blocking passage of eggs and plant roots planted in the port, And extending and expanding to expand the root growth space while extending to the outside of the case,
Wherein the opening of the mesh is fixed in a state of being closely attached to the upper portion of the case through a tightening device so as to prevent the mesh from being detached from the case during the elongation of the mesh. The method according to claim 1,
Wherein the plurality of cradles are provided so as to be adjustable in spacing between the cradles. 3. The method of claim 2,
Further comprising a frame for supporting the cradle,
And a wheel is installed at a lower portion of the frame to move together with the cradle. The method according to claim 1,
The culture liquid supply unit includes:
A culture liquid tank in which the culture liquid is stored;
A spraying part installed in the mount for spraying the culture solution;
A driving unit having a motor and a pump for supplying the culture liquid from the culture liquid tank to the jetting unit; And
And a drain pipe connected to the cradle and discharging the culture liquid. 5. The method of claim 4,
Wherein the drain pipe is connected to a culture tank. 5. The method of claim 4,
The injection unit
A supply hose connected to a driving unit to receive the culture liquid and installed inside the cradle; And
And a nozzle connected to the supply hose and spraying the culture liquid. The method according to claim 6,
The supply hose is installed in the longitudinal direction of the cradle,
Wherein the nozzle is connected to the supply hose so as to be located between the ports. 8. The method of claim 7,
Wherein the supply hose and the nozzle are located on both sides in the longitudinal direction of the cradle. delete delete The method according to claim 1,
Wherein the mesh has hydrophobicity. The method according to claim 1,
Wherein the plant is intended for cut flower cultivation.

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