KR102525176B1 - Chili cultivation apparatus improved space utilization - Google Patents

Abstract

The present invention relates to a pepper seedling cultivation device with improved space utilization that enables hair growth of a large amount of pepper seedlings in a limited hair growth house by stacking hair growth pots seeded with red pepper seeds in multiple stages spaced apart in a hair growth house,
In the present invention, the main body with vertical frames formed at least at each corner; Seedling rearrangements disposed vertically and spaced apart in the main body at set intervals to form space layers of hair growth open on all sides of the main body so as to be partitioned up and down; hair growth ports seated on each seedling cultivation tray formed in the main body and disposed in the hair growth space layer; And a spray nozzle unit for supplying moisture to pepper seedlings growing in hair growth pots seated on a seedling cultivation tray forming the hair growth space layer by spraying water supplied to each hair growth space layer to the hair growth space layer. characterized in that it consists of

Description

Chili cultivation apparatus improved space utilization

The present invention relates to an apparatus for cultivating pepper seedlings with improved space utilization, and more particularly, by stacking hair growth pots in which red pepper seeds are sown in a hair growth house in multiple stages spaced apart from each other so that a large amount of pepper seedlings can be grown within a limited hair growth house. It relates to a pepper seedling cultivation device with improved space utilization.

In general, glass greenhouses and vinyl houses are used for fruit and vegetables such as peppers, cucumbers, tomatoes, and cherry tomatoes, leafy vegetables such as lettuce, water parsley, Chinese cabbage, cabbage, spinach, and green onions, and flowers such as roses, gerberas, chrysanthemums, and carnations, even in the cold winter. By enabling the cultivation of the same plants, it not only increases the profits of farmers, but also enables consumers to consume fresh plants even in winter.

However, since these glass greenhouses or vinyl houses are installed on the ground such as farmland or riverbeds, plant seeds are sowed on the ground or seedlings grown in seedbeds are transplanted to the ground and grown, so the cultivation space or production per unit area is limited. Of course, there were problems such as damage caused by continuous cropping.

Therefore, in the prior art, in order to increase production even in a limited cultivation space, reduce manpower required for cultivation, and reduce damage caused by repeated cropping, plants were arranged in multiple stages in the space and cultivated.

However, this cultivation method has a problem that adversely affects the growth of plants in the lower part because the sunlight to be supplied to the plants located in the lower part is blocked by the bed or pot (cultivation container) in which the plant and its roots are planted at the top. there was.

Accordingly, in the field, artificial light sources such as LED lamps are arranged for each cultivation layer so that the crops grow by artificial light through artificial light sources, but natural light through sunlight is more effective for crop growth than artificial light. desirable.

KR 10-2055868 B1 KR 20-0327215 Y1

The object of the present invention, which was conceived to solve the above problems, relates to a pepper seedling cultivation device with improved space utilization, and more particularly, in a hair growth house, hair growth pots in which pepper seeds are sown are stacked in multiple stages spaced apart from each other up and down. So, in enabling the hair growth of a large amount of pepper seedlings in a limited hair growth house,

By forming the lighting, temperature, drainage, and ventilation conditions suitable for the growth of pepper seedlings in the multi-stage hair growth pots, the pepper seedlings grown in the hair growth pots in each layer form uniform and high-quality growth conditions without occurrence of deviations in growth. It is to provide a pepper seedling cultivation device with improved space utilization to do so.

The above object is achieved by the following structure provided by the present invention.

Pepper seedling cultivation apparatus with improved space utilization according to the present invention,

a body with vertical frames formed at least at each corner;

Seedling rearrangements disposed vertically and spaced apart in the main body at set intervals to form space layers of hair growth open on all sides of the main body so as to be partitioned up and down;

hair growth ports seated on each seedling cultivation tray formed in the main body and disposed in the hair growth space layer; and

A spray nozzle unit for supplying moisture to pepper seedlings growing in a hair growth pot seated on a seedling re-arrangement tray forming the hair growth space layer by spraying water supplied to each hair growth space layer to the hair growth space layer characterized by

Preferably, sliding rails are formed to fix both sides of the seedling rearrangement to the main body in a forward and backward longitudinal direction, so that each seedling rearrangement advances and retreats in the forward and backward longitudinal directions,

The sliding rail unit includes rail members formed on inner walls of both sides of the main body; It is formed on both sides of the seedling cultivation tray and includes guide rollers that advance and retreat along the rail member while rolling in the longitudinal direction along the rail member.

More preferably, the rail member on which the seedling tray is arranged in a sliding structure is installed in a vertical hinge structure to the main body through a hinge axis, and tilted up and down around the hinge axis to adjust the inclination angle,

By adjusting the inclination angle of the rail member, the seedling replanting machine is configured to change the lighting angle by changing the lighting position and the inclination through sliding movement in the forward and backward directions.

As described above, in the present invention, by arranging seedling cultivation trays vertically and spaced apart in the main body to form a multi-stage hair growth space layer, the quantity and productivity per unit area according to the hair growth of pepper seedlings can be increased by about 3 to 10 times compared to greenhouses. There are possible effects.

In addition, since it is possible to shorten the cultivation period and produce standard seedlings through environmental control suitable for the growth of pepper seedlings, productivity according to hair growth of pepper seedlings and convenience according to management can be secured.

In particular, in the present invention, by maximizing the natural light of the pepper seedlings located in each hair growth space layer, stable growth is possible without adopting an auxiliary light source such as LED.

In addition, stable heat supply, drainage, and ventilation are achieved in the hair restoration pots arranged in each hair restoring space layer, so that the pepper seedlings grown in the hair restoring pots placed in each hair restoring space layer are in a uniform and high-quality growth state without any deviation in growth. can form

1 and 2 show the overall configuration of a pepper seedling cultivation apparatus with improved space utilization proposed as a preferred embodiment of the present invention,
3 and 4 show the change in the lighting state of the hair growth port seated on the seedling rearrangement according to the advance and retreat and tilting of the seedling rearrangement in the pepper seedling cultivation apparatus with improved space utilization proposed as a preferred embodiment of the present invention is to show,
5 schematically shows the detailed configuration of the heat supply unit and the state in which the seedling port is seated on the heat supply unit in the apparatus for cultivating pepper seedlings with improved space utilization proposed as a preferred embodiment of the present invention.

Hereinafter, a pepper seedling cultivation apparatus with improved space utilization proposed as a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 show the overall configuration of a pepper seedling cultivation apparatus with improved space utilization proposed as a preferred embodiment in the present invention, and FIGS. 3 and 4 show the space utilization proposed as a preferred embodiment in the present invention In the improved pepper seedling cultivation apparatus, it shows the change in the lighting state of the hair growth port seated on the seedling cultivation frame according to the advance and retreat and tilting of the seedling cultivation frame, and FIG. 5 shows the space utilization proposed as a preferred embodiment in the present invention In the improved pepper seedling cultivation device, it schematically shows the detailed configuration of the heat supply unit and the state in which the seedling port is seated in the heat supply unit.

As shown in FIGS. 1 to 4 , a pepper seedling cultivation device 1 with improved space utilization proposed as a preferred embodiment of the present invention includes a main body 10 having vertical frames 11 formed at at least each corner; a seedling rearrangement 20 disposed vertically and spaced apart at set intervals within the main body 10 to form hair-growth space layers 21 open on all sides of the main body 10 so as to be partitioned up and down; hair growth ports 30 that are seated on each seedling rearrangement frame 20 formed in the main body 10 and disposed in the hair growth space layer 21; And the hair growth pot 30 seated on the seedling re-arrangement 20 forming the corresponding hair growth space layer 21 by spraying the water supplied to each of the hair growth space layers 21 to the hair growth space layer 21 It includes a spray nozzle unit 40 for supplying moisture to the pepper seedlings growing on.

The main body 10 is composed of a square frame structure in which vertical frames 11 composed of profiles are connected by horizontal frames 12 at each corner.

In the present embodiment, four seedling cultivation trays 20 are spaced apart from each other in the quadrangular main body 10 to form a four-stage hair growth space layer 21 open on all sides in the main body 10.

In addition, in each of the seedling cultivation trays 20, hair growth ports 30 seeded with red pepper seeds are seated in each port groove 31 filled with culture soil, and a large amount of hair growth ports in a hair growth house having a limited cultivation space Arrange the (30) in a stacked manner so that space utilization is maximized.

Here, the hair growth port 30 is configured in the form of port grooves 31 having drain holes 32 formed on the lower bottom, and is almost the same as the conventional one.

However, in this embodiment, by forming optimal growth conditions including uniform lighting, temperature, and moisture in the hair growth ports 30 arranged in each hair growth space layer 21 formed on the main body 10, Each pepper seedling should form a uniform and high-quality growth condition without occurrence of growth deviation.

First, in the present invention, artificial light sources including LED lamps are not used in the hair-growth ports 30 arranged in each hair-growth space layer 21, and the pepper seedlings to be grown are configured to receive maximum natural light, so that each hair-growth Pepper seedlings grown in the pot 30 are grown more soundly through stable lighting of natural light.

To this end, in the present embodiment, the seedling rearrangement 20 to form the lower layer by the seedling rearrangement 20 forming the upper layer is configured so that the seedling rearrangement 20 on which the hair growth port 30 is seated moves forward and backward. ) By minimizing the occurrence of shading of the hair growth port 30 seated in, it is possible to obtain stable natural light.

To describe this in detail, in the present embodiment, both sides of the seedling rearrangement 20 are fixed to the main body 10 in a forward and backward forward and backward structure so that each seedling rearrangement 20 advances in the forward and backward directions of the main body 10. To form a sliding rail portion 50.

Here, the sliding rail unit 50 includes rail members 51 formed on inner walls of both sides of the main body 10; One or more guide rollers 52 are disposed on both sides of the seedling tray 20 and move forward and backward along the rail member 51 in the longitudinal direction while rolling along the rail member 51 .

Therefore, each of the seedling rearrangements 20 enters and exits the main body 10 in front and rear to form an independent lighting position, thereby minimizing the occurrence of shadows by the seedling rearrangement 20 formed on the upper part, so that each hair raising space layer ( The pepper seedlings grown in 21) can promote uniform mining.

In particular, in the present invention, each seedling rearrangement 20 arranged in a forward and backward structure on the main body moves forward and backward through the sliding rail unit 50, and the forward and backward traction tilting so that the seedling rearrangement 20 gradually inclines By adding a structure, the advance and retreat of the seedling trays 20 according to natural light and the adjustment of the inclination angle are collectively performed, thereby minimizing the occurrence of shadows by each seedling tray 20 and enabling more stable natural light.

First, in the present invention, a hinge shaft 51a is formed at one point of the rail member 51 of the sliding rail unit 50, and the rail member 51 in which the seedling rearrangement 20 is installed in a forward and backward structure is It tilts in a vertical hinge structure around the hinge axis 51a.

Therefore, when the first half of the rail member 51 tilts downward, the seedling replanting tray 20 is configured to advance forward along the inclined rail member 51, and the second half of the rail member 51 moves downward. When the rail member 51 forms a horizontal state by tilting in the direction, the seedling replanting tray 20 is configured to advance backward along the inclined rail member 51.

Also, in this embodiment, a traction spring 64 is disposed to elastically pull the seedling rearrangement 20 disposed on the rail member 51 in a forward and backward structure to the rear.

Therefore, in the course of the sliding movement of the seedling rearrangement 20 forward along the inclined rail member 51, the seedling rearrangement 20 advances gradually forward due to the delayed advance speed by the traction spring 64, In addition, when the rail member 51 is kept horizontal, the seedling rearrangement 20 advanced forward is elastically pulled backward and retreats, so the impact caused by the instant advance of the seedling rearrangement 20 is alleviated, and the seedling rearrangement 20 moves forward. Reversal of the battle (20) is possible.

At this time, a roller stopper 51b is disposed on the rail member 51 to physically limit the advance distance of the guide roller 52 disposed on the seedling regeneration tray 20, and the manager installs it on each rail member 51 By selecting the roller stopper 51b to adjust the forward and backward stroke distance of the seedling rearrangement frame 20 formed in each hair growth space layer 21, the advance and retreat of the seedling rearrangement frame 20 disposed in each hair growth space layer 21 Individual setting of the distance is possible.

In the present invention, for example, in the rail member 51 of the hair growth space layer 21 formed on the lower side, the roller stopper 51b is placed as far as possible in the front, and on the rail member 51 of the hair growth space layer 21 formed on the upper side, The roller stopper 51b is gradually arranged rearward.

At this time, the seedling rearrangement 20 formed on the lower hair growth space layer 21 is configured to protrude more forward relatively than the seedling rearrangement 20 disposed on the upper hair growth space layer 21, so that the vertical tilting The seedling cultivation trays 20 that advance forward along the inclined rail members 51 through the inclined plane structure are formed by varying the advance distance up and down, so that the light is obtained by the seedling cultivation tray 20 disposed at the top. Deterioration should be minimized.

Thus, among the seedling rearrangements 20 disposed on the main body 10, the advance distance of the seedling rearrangement 20 formed above the lower seedling rearrangement 20 is gradually shortened, so that each seedling rearrangement When the battle 20 advances forward, the seedling replanting machines 20 form a cascading shape to promote more stable mining.

Of course, even according to the growth state of the peppers grown in the hair growth pots 30 seated on each seedling rearrangement frame 20, it has a specificity that allows individual setting of the forward and backward distance of the seedling rearrangement frame 30.

In particular, in the present invention, the vertical tilting of each rail member 51, which rotates vertically around the hinge axis 51a and promotes independent advancement and tilting of the seedling rearrangement 20 arranged in a forward and backward structure, is electrically By adding the traction tilting unit 60 to be collectively implemented by the manager, the hassle of individually setting the inclination angle of the rail member 51 is eliminated.

The traction tilting unit 60 according to the present embodiment includes a link rod 61 connecting each rail member 51 disposed on the main body 10 in a link structure; It includes an electric cylinder 62 for moving the link rod 61 forward and backward, and in this embodiment, the link rod 61 and the rail member 51 are connected in a link structure through a connection rod 63.

Therefore, as shown in FIG. 3, when the link rod 61 is lowered by the electric cylinder 62, each rail member 51 tilts backward about the hinge axis 51a to form a horizontal state, in this state By the traction force of the traction spring 64, the seedling rearrangements 20 arranged on each rail member 51 collectively move backward.

And, as shown in FIG. 4, when the link rod 61 is raised by the electric cylinder 62, each rail member 51 tilts forward to form a horizontal state, and in this state, each rail member 51 is disposed The seedling trays 20 move collectively forward along the inclined rail member 51 and advance forward.

In addition, the traction tilting unit 60 tilts the rail member 51 up and down according to the set time or amount of light to organically adjust the gradient and advance distance of the seedling rearrangement 20 disposed on each rail member 51 By setting, the amount of light of each seedling rearrangement 20 is maximized.

That is, the electric cylinder 62 measures the control value set in the control unit (not shown), that is, the amount of light emitted to the seedling rearrangement 20 in real time by time period or through an optical sensor (not shown), and the real time The advance and retreat and inclination angles of each seedling cultivation frame 20 are organically adjusted according to the amount of light measured by .

On the other hand, the pepper seedling cultivation apparatus 1 according to the present embodiment is configured to improve space utilization by arranging the hair growth pots 30 in a stacked manner in each hair growth space layer 21 formed on the main body 10, so that the vertical temperature The variation may cause growth variation of the pepper seedlings cultivated in each hair growth space layer 21, and stable drainage of the hair growth port 30 supplied through the spray nozzle unit 40 is required.

To this end, in this embodiment, as shown in FIGS. 1, 5, and 6, each seedling regeneration tray 20 forming the hair growth space layer 21 has an improved heat supply structure and a ventilation and drainage structure. By disposing the supply unit 70, stable heat supply and ventilation and drainage are promoted to the hair growth port 30 disposed in the corresponding hair growth space layer 21.

The heat supply unit 70 is configured to include a heat sink 71 having a hot water pipe alignment groove 72 formed thereon, and heat provided through the hot water pipe P is transferred to the hair growth port 30 seated on the top. By generating surface heat, the hair pot 30 uniformly receives the heat provided through the heat sink 71.

And, as shown in FIG. 6, the heat dissipation support block ( 73) are formed, and stable heat is provided in each port groove 31 through the heat dissipation support block 73, and at the same time, moisture drained through the drain hole 32 formed at the bottom of the port groove 31 supports heat dissipation. It passes between the blocks 73 and is stably discharged to the outside.

In particular, in this embodiment, the hollow ventilation fins 74 entering the port groove 31 through the drainage hole 32 of the port groove 31 formed in the hair growth port 30 on the top of the heat sink 71 are It is formed to protrude to promote stable ventilation of the culture soil filled in the port groove 31 through the hollow ventilation pin 74.

At this time, the ventilation pin 74 is composed of a tube body having a hollow ventilation hole, and promotes stable ventilation in the port groove 31 through the ventilation holes.

Therefore, the present invention can provide uniform heat to the hair growth pots 30 arranged in each hair growth space layer 21 through surface heat generation using the heat sink 71, and the heat dissipation support formed on the heat sink 71 By the drainage and ventilation induction structure through the block 73 and the ventilation pin 74, the pepper seedlings cultivated in each hair growth space layer 21 have a specificity capable of stable growth because the temperature and drainage suitable for growth are achieved.

1. Pepper Seedling Cultivator
10. Body 11. Vertical frame
12. Horizontal frame
20. Seedling replanting 21. Hair growth space layer
22. Collecting guide line
30. Hair growth port 31. Port home
32. Drainage
40. Spray nozzle part
50. Sliding rail part
51. Rail member 51a. hinge axis
51 b. Roller stopper 52. Guide roller
60. Traction tilting part 61. Link rod
62. Electric cylinder 63. Connection rod
64. Traction spring
70. Heat supply unit 71. Heat sink
72. Hot water pipe alignment groove 73. Heat dissipation support block
74. Ventilation fin P. Hot water pipe

Claims (3)

a body with vertical frames formed at least at each corner;
Seedling rearrangements disposed vertically and spaced apart in the main body at set intervals to form space layers of hair growth open on all sides of the main body so as to be partitioned up and down;
hair growth ports seated on each seedling cultivation tray formed in the main body and disposed in the hair growth space layer; and
A spray nozzle unit for supplying water to the pepper seedlings growing in the hair growth pot seated on the seedling regeneration tray forming the hair growth space layer by spraying water that is disposed in each of the hair growth space layers and supplied to the hair growth space layer,
A sliding rail portion is formed to fix both sides of the seedling cultivation frame to the main body in a forward and backward longitudinal direction, so that each seedling cultivation frame advances and retreats in the forward and backward longitudinal direction,
The sliding rail unit includes rail members formed on inner walls of both sides of the main body; It includes guide rollers formed on both sides of the seedling rearrangement and moving forward and backward along the rail member while rolling in the longitudinal direction along the rail member,
The rail member on which the seedling tray is arranged in a sliding structure is installed in a vertical hinge structure to the main body through a hinge axis, and tilted up and down around the hinge axis to adjust the inclination angle,
A traction spring is disposed on the rail member to elastically pull the seedling rearrangement frame arranged in a forward and backward structure to the rear, while a roller stopper is disposed on the rail member to physically limit the advance distance of the guide roller disposed on the seedling rearrangement frame. become,
The roller stopper is placed as far forward as possible on the rail member of the hair growth space layer formed on the lower side, and the roller stopper is gradually rearranged on the rail member of the hair growth space layer formed on the upper side. Seedlings formed on the lower hair growth space layer The rearrangement is configured to protrude more forward relatively than the seedling rearrangement disposed in the upper hair growth space layer,
The seedling replants advanced forward along the inclined rail members through vertical tilting are configured to form a stepped inclined plane structure by varying the vertical advancement distance,
Arrange a heat supply unit that integrally provides a heat supply function, an aeration function, and a drainage function to each seedling cultivation frame forming the hair growth space layer,
The heat supply unit includes a heat sink having hot water pipe alignment grooves formed thereon, so that hot air supplied through the heat sink is uniformly supplied to the hair pot through surface heat generation of the heat sink,
On the upper surface of the heat sink, heat dissipation support blocks supported in an inclined plane structure on the bottom and inclined side walls of each port groove are formed so that the bottom surface of the port groove is spaced apart at a set height, and moisture is discharged through a drain hole formed at the bottom of the port groove. Passes between the heat dissipation support blocks and is stably discharged to the outside,
On the upper part of the heat sink, hollow ventilation pins entering the port groove through the drainage holes of the port groove formed in the hair growth port are formed to protrude, so that stable ventilation of the culture soil filled in the port groove is promoted through the hollow ventilation pins. Pepper seedling cultivation apparatus with improved space utilization, characterized in that configured. delete The method of claim 1, wherein the seedling rearrangement by adjusting the inclination angle of the rail member is configured to change the lighting angle through changing the lighting position through sliding movement in the forward and backward direction and changing the inclination through vertical tilting Pepper seedling cultivation device with improved space utilization.

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