KR101648859B1 - sprouts cultivating apparatus - Google Patents

Abstract

The present invention relates to a sprout cultivation apparatus for a feed, comprising a house having an entrance door and an exit door for opening and closing an interior cultivation space on opposite sides, a seed having a top open and a bud to be cultivated, A growth frame unit vertically spaced apart from the entrance frame and extending in a direction from the entrance door toward the exit door so as to allow the tray to be stacked in multiple layers; A light guiding part for guiding the light projected through the light projecting window formed on the roof of the house so as to guide the light projected into the space between the seating frames, and a rolling movement guide . According to such a bud growth apparatus for feed, it is possible to continuously cultivate feed buds, and it is possible to accommodate multi-layer cultivation trays while being able to utilize sunlight, thereby providing an advantage that productivity can be improved.

Description

Sprouts Cultivating Apparatus [

The present invention relates to a bud growth apparatus for a feed, and more particularly, to a bud growth apparatus for a feed sprout capable of continuously cultivating feed buds in a first-in first-out manner.

Sprout cultivation means germinating seeds and cultivating them to within 10cm.

Such bud cultivation is applied to various plants such as bean sprouts, host herbs, and silkworms.

Sprout cultivation is a method of cultivating sprouts by placing seeds in a basket or the like and covering them with a light-shielding cover, periodically supplying water to germinate the seeds, laying cotton or sponge at a certain thickness in a seedling box, After that, there are various methods such as a method of spraying seeds on top of it, a method of spraying seeds on the soil, sand, or soil in a plastic house, and spraying seeds thereon and cultivating water.

Such a conventional bud cultivation method has been used in a classical manner from ancient times, and most of them are used for simple cultivation and edible use at home, rather than cultivation methods for commercialization.

On the other hand, in recent years, as the effectiveness of the sprouts has become more prominent, various vegetables or cereal sprouts have been utilized for edible purposes.

A device for germinating seeds and cultivating them to eat buds is disclosed in various publications such as Korean Patent Publication No. 10-2005-0081199.

Such conventional bud growers are in the form of containers for cultivation in domestic or small scale, and are required to be continuously cultivated in order to feed continuously as a feed for livestock feed.

It is an object of the present invention to provide a seed cultivation apparatus for a feed which is capable of continuously cultivating feed sprouts in a first-in first-out manner and increasing productivity while solving the above-mentioned problems.

In order to accomplish the above object, the present invention provides a bud sprout cultivation apparatus comprising: a house having an entrance door and an exit door for opening and closing an interior cultivation space on opposite sides; A seating frame extending in a direction from the entrance door toward the exit door in a cultivation space of the house so that the cultivation tray in which seeds of buds to be cultivated are open can be seated in multiple layers, A cultivating frame unit formed to be capable of emitting light; A mining inducing unit guiding light projected through a light projecting window formed on the roof of the house so that sunlight can be projected into the inside of the house, And a rolling motion guide part formed in the seating frame so that the tray can be moved while rolling.

According to an aspect of the present invention, the at least one main reflecting mirror is provided on the inner side of the house to reflect light incident through the light transmitting window to the space between the seating frames; And an auxiliary reflecting mirror formed to be inclined at a height from the center of the bottom surface of the seating frame to the edge direction so as to change the optical path to the tray for the light incident through the main reflecting mirror.

The rolling motion guide unit may include a plurality of rotating rollers installed to the seating frame so that the outer peripheral surface of the rolling tray protrudes upward so that the tray can move while rolling in the direction from the entrance door to the exit door .

According to another aspect of the present invention, the light guiding part includes: a light collecting lens for collecting light incident through the light transmitting window; A main optical fiber capable of receiving and guiding light condensed through the condenser lens; And a plurality of sub optical fibers having one end connected to the main optical fiber so as to divide the light transmitted through the main optical fiber, and the other end of the sub optical fiber extends to the bottom surface of the seating frame, To the seat frame.

More preferably, a light guide plate for diffusing incident light is coupled to an end of the sub optical fiber.

A water supply unit installed to supply water to the cultivating tray through a nozzle installed in the cultivating frame unit; A light source unit installed in the cultivating frame unit to irradiate light to the cultivating tray according to an applied control signal; An illuminance sensor for detecting illuminance of light incident through the light-transmitting window; A control unit for controlling the light source unit to emit light in the light source unit when the illuminance received from the illuminance sensor is less than a predetermined illuminance in a set weekday time zone and controlling the water supply unit to spray water through the nozzle for each set water supply period; Respectively.

According to the seedling cultivation apparatus for feed according to the present invention, it is possible to continuously cultivate feed buds and to accommodate multi-layer cultivation trays while utilizing sunlight, thereby providing productivity advantages.

1 is a cross-sectional view of a bud seed cultivation apparatus according to the present invention,
FIG. 2 is a cross-sectional view showing the bud seed cultivation apparatus of FIG. 1 from another angle,
FIG. 3 is a block diagram showing a control system of the bud seed cultivation apparatus of FIG. 1,
FIG. 4 is a cross-sectional view illustrating a part of a bud seed cultivation apparatus according to another embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

FIG. 1 is a cross-sectional view of a bud seed cultivation apparatus according to the present invention, FIG. 2 is a cross-sectional view showing the bud seed cultivation apparatus of FIG. 1 from another angle, FIG. 3 is a control system of the bud seed cultivation apparatus of FIG. Fig.

1 to 3, the seed sprout cultivation apparatus 100 according to the present invention includes a house 110, a cultivation frame unit 120, and a mining induction unit 130.

The house 110 is formed in the shape of a rectangular housing having a cultivation space 112 therein and has an entrance door 114 and an exit door 116 formed on opposite sides thereof for opening and closing the cultivation space 112 .

The roof 116 of the house 110 is formed with a light transmitting window 118 so that sunlight can be projected into the house 110.

The cultivation frame unit 120 is installed in the cultivation space 112 of the house 110 so that the cultivation tray 140 in which the seed of the bud to be cultivated can be placed in a multi- And a seating frame 122 extending along the direction toward the main body 116 is vertically spaced apart from each other.

The cultivating frame unit 120 has a structure in which the seating frame 122 is supported and supported horizontally on the vertical frames 124 extending mutually spaced apart in a vertical direction in the cultivation space of the house 110.

The cultivating frame unit 120 has a structure in which upper ends of the vertical frames 124 are interconnected and a light source 161 to be described later and an upper support frame 126 on which the nozzles 171 are installed.

The light source 161 and the nozzle 171 provided on the upper support frame 126 may be installed on the ceiling surface forming the roof 116, to be.

Here, the cultivation tray 140 is formed in the shape of a rectangular container which is open at the top and capable of sowing the seed of the bud to be cultivated.

In addition, cereals such as barley can be applied to the cultivated tray 140.

The cultivating tray 140 may be formed in a structure in which the cultivating tray 140 can be moved forward in a state where the cultivating trays 140 are aligned with each other in a straight line, and need not necessarily be rectangular.

In the illustrated example, the cultivating frame unit 120 is a three-layer structure in which three seating frames 122 are vertically arrayed, and the number of the applied layers is different from the illustrated example.

The rotation roller 151 is applied as a rolling motion guide portion and is configured such that the outer peripheral surface thereof protrudes upward from the upper surface of the seat frame 122 and is rotatably installed in the seat frame 122 so that the tray 140 can be moved while rolling .

Needless to say, the rotary roller 151 can be constructed to be driven by a motor.

On the other hand, an auxiliary roller 145 rotatably installed on the vertical frame 124 is provided so as to smoothly guide the movement of the cultivating tray 140 to the side surface.

Therefore, when the external force is applied from one side along the direction from the inlet door 114 to the outlet door 116, the cultivating tray 140 can easily proceed the entire cultivating tray 140 tightly and in close contact with each other while rolling have.

The light guiding unit 130 guides the light projected through the light projecting window 118 formed on the roof 116 so that the sunlight can be projected into the house 110, In the illustrated example, the first and second main reflecting mirrors 131 and 132 and the auxiliary reflecting mirror 135 are applied.

The first and second main reflecting mirrors 131 and 132 are provided at positions vertically spaced from the inner surface of the house 110 so that the light incident through the light transmitting window 118 is transmitted through the space between the seating frames 122 As shown in FIG.

The first main reflecting mirror 131 is inclined in a direction approaching the vertical frame 124 as it goes downward so that light can be reflected into a space between the uppermost mounting frame 122 and the middle mounting frame 122 .

The second main reflecting mirror 132 is disposed in a direction that is closer to the vertical frame 124 as it moves downward so as to reflect light in a space between the seating frame 122 at the intermediate stage and the seating frame 122 at the lowermost stage And is provided so as to protrude more toward the vertical frame than the first main reflecting mirror 131. [

The mounting frame 122 is provided at its bottom with light incident through the first and second main reflecting mirrors 131 and 132 in the direction toward the top of the cultivating tray 140, The auxiliary reflection mirror 135 is formed so as to be inclined in an inverted triangular shape so that the height of the auxiliary reflection mirror 135 increases toward the edge direction from the center of the bottom surface of the seating frame 122 so as to change the height.

Another light guide portion will be described with reference to FIG.

The light guiding part 240 is formed in a funnel shape and includes a condensing lens 232 for condensing the light incident through the light transmitting window 118 to the condensing holder 231 coupled to the roof 116 on which the light transmitting window 118 is formed And the light condensed through the condenser lens 232 is received by the main optical fiber 234 so that light guided through the main optical fiber 234 can be transmitted through the sub optical fibers 236 branched for a plurality of branches .

The main optical fiber 234 is a large diameter plastic optical fiber and a plurality of sub optical fibers 236 connected to the main optical fiber 234 at one end are branched from the main optical fiber 234 to branch the light transmitted through the main optical fiber 234 234 may be applied.

The other end of the sub optical fiber 236 extends to the bottom of the seating frame 122 and is coupled to the seating frame 122 so as to emit light downward.

The sub optical fibers 236 may be appropriately distributed to the uppermost, middle, and lowermost seating frames 122, respectively.

Preferably, a light guide plate 238 for diffusing incident light is coupled to the end of the sub optical fiber 236.

It is preferable that the light guide plate 238 is formed of an acrylic material and the bottom surface is formed in a concavo-convex shape.

The water supply unit 170 may supply water from the water tank or the raw water supply source supplied with the raw water to the nozzle 171 installed in the cultivation frame unit 120 through a supply pipe (not shown) .

An open / close valve or a pump may be provided in the supply pipe to control the water supply of the water supply unit 170, and the open / close valve or the pump is controlled and driven by the control unit 181.

The light source unit 160 is installed in the cultivation frame unit 120 so that light can be irradiated to the cultivation tray 140, and the driving of the light source unit 160 is controlled by the control unit 181.

In the light source unit 160, a plurality of light emitting diode lamps 161 are used.

The illuminance sensor 182 detects the illuminance of the light incident through the translucent window 118 and outputs it to the control section 181.

The control unit 181 controls the light source unit 160 to emit light from the light source unit 160 when the illuminance received from the illuminance sensor 182 is lower than the predetermined illuminance from 7:00 am to 6:00 pm, And is configured to control the water supply unit 170 so that water is injected through the nozzle 171 in every set water supply period.

Alternatively, the control unit 181 may be configured to control the driving of the water supply unit 170 and the light source unit 160 according to the light irradiation amount and the water supply amount set for each growth stage after sowing of the cultivation tray 140.

When the cultivation tray 140 is sequentially introduced through the entrance door 114 in accordance with the sprout cultivation period, the seedling cultivation apparatus 100 for a feed grows sequentially according to the order of introduction and date, The cultivation tray 140 can be continuously cultivated by the first-in first-out method.

When the new cultivation tray 140 is inserted and advanced from the entrance door 114 side, the entire cultivating tray 140 arranged in series from the entrance door 116 to the exit door 116 is advanced by rolling by the rotary roller 151 Therefore, the circulation changing operation of the cultivation tray 140 is facilitated.

110: House 120: Cultivation frame unit
130, 230: mining induction section 140: cultivation tray

Claims (6)

A house having an inlet door and an outlet door capable of opening and closing an inside cultivation space on a mutually facing side;
A seating frame extending in a direction from the entrance door toward the exit door in a cultivation space of the house so that the cultivation tray in which seeds of buds to be cultivated are open can be seated in multiple layers, A cultivating frame unit formed to be capable of emitting light;
A mining inducing unit guiding light projected through a light projecting window formed on a roof of the house so that sunlight can be projected into the house,
And a rolling motion guide portion formed on the seating frame so that the tray can be moved while rolling,
The mining induction unit
A plurality of main reflection mirrors provided on an inner surface of the house so as to reflect light incident through the light projecting window to a space between the seating frames;
And an auxiliary reflecting mirror formed to be inclined at a height from the center of the bottom surface of the seating frame to the edge direction so as to change the optical path to the tray for the light incident through the main reflecting mirror,
The main reflecting mirrors
The auxiliary reflecting mirror is disposed opposite to both sides of the auxiliary reflecting mirror toward the edge with respect to the center,
The rolling motion guide portion
And a plurality of rotation rollers provided on the seating frame so as to be rotatable and protruded from the outer circumferential surface so that the cultivation tray can be moved in a rolling motion along the direction from the entrance door to the exit door. Cultivation device. delete delete delete delete The apparatus of claim 1, further comprising: a water supply unit installed to supply water to the cultivation tray through a nozzle installed in the cultivation frame unit;
A light source unit installed in the cultivating frame unit to irradiate light to the cultivating tray according to an applied control signal;
An illuminance sensor for detecting illuminance of light incident through the light-transmitting window;
A control unit for controlling the light source unit to emit light in the light source unit when the illuminance received from the illuminance sensor is less than a predetermined illuminance in a set weekday time zone and controlling the water supply unit to spray water through the nozzle for each set water supply period; Wherein the seed cultivation apparatus comprises:

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