KR101426876B1 - Plant cultivation device using underground pit - Google Patents

Abstract

The present invention relates to a plant cultivation apparatus using an underground pit to enable various plants to be cultivated in an environmentally friendly manner, regardless of natural environment or place, by using sunlight and geothermal energy.
The plant cultivation apparatus using the underground pit according to the present invention comprises a circulator 20 installed in a cultivation room 10 and a circulation unit 20 installed at a predetermined interval in the circulation unit to circulate the inner space of the cultivation room by the circulator, A plurality of guide chain gears (60) installed on the underground pit, and a plurality of guide chain gears (60) installed on the underground pit A heat exchange pipe 70 installed in a state of being wrapped in a spiral shape and separated from the outside of the underground pit at a predetermined interval and allowing heat exchange with the geothermal heat while passing air and an upper end of the heat exchange pipe extending to be exposed to the inside of the cultivation room are connected And an air blower (80) for supplying air to the heat exchange pipe and exchanging heat with the geothermal heat and allowing the air to flow into the underground pit.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plant cultivation device using underground pit,

The present invention relates to a plant cultivation apparatus using an underground pit, and more particularly, to a plant cultivation apparatus using an underground pit to enable various plants to be cultivated in an environmentally friendly manner, .

Among the conventional plant cultivation apparatuses, there are a cultivation room, a circulation unit provided inside the cultivation room, a reed unit installed at a predetermined interval in the circulation unit to move the internal space of the cultivation room by the circulation unit, 1, the frame 2, which is one of the constituent elements of the circulatory apparatus 1, as shown in Fig. 1 in the plant cultivation system (10-2011-0014232), which is a prior invention of the applicant, The upper and lower ends are fixed to the left and right horizontal beams 2c at regular intervals so that a plurality of short vertical beams 2b having a short length are arranged alternately one by one between the left and right long vertical beams 2a, A plurality of left and right chain gears 3 are disposed on the left and right sides of several shafts 3a that horizontally cross the upper end of each of the left and right longitudinal vertical beams and the upper and lower left and right horizontal transmission / · Velvet And the left and right chains 4 are fixed to the left and right chain gears fixed to the right and left ends of the shafts in order so that the right and left chains are disposed between the chain gears provided at the front and rear ends of the lower left and right horizontal beams When passing through the upper and lower right and left vertical chains, the upper and lower right and left vertical ribs are horizontally moved while passing through the upper and lower right and left vertical ribs, There is provided a cabinet comprising a cabinet provided with a cabinet having cabinets on both sides thereof for accommodating germinated plants so that the cabinets repeatedly ascend and descend several times in an oblique direction in the interior space of the cabin, In the process of repeating the process of moving and circulating the plants were allowed to grow in the sun.

However, the planting apparatus using the underground pit is provided with a heating device using electricity or fossil fuel to raise the internal temperature of the cultivation room at night where the temperature of the cultivation room is not suitable for the growth of the plant, On the contrary, at night, when the temperature of the cultivation room is kept high enough not to be suitable for the growth of plants, since the air conditioner is installed to lower the internal temperature, the cost of heating and cooling is continuously increased. There is a problem that the cost of production is reduced and the cost of production is significantly increased.

In addition, there have also been problems such that it is very cumbersome and inconvenient to maintain and manage the cooling and heating equipment in accordance with the use of electricity or fossil fuel.

The present invention has been made in view of these points, and it is an object of the present invention to provide a plant cultivation apparatus using underground pit which is very simple and easy to grow for cultivation, .

In order to accomplish the above objects, the present invention provides a cultivating apparatus comprising a cultivating room, a circulating unit installed in the cultivating room, and a cultivation unit installed at a predetermined interval in the circulatory unit to move the inner space of the cultivation room by the circulatory unit, An underground pit installed at an inner bottom of the cultivating room at a predetermined depth and upper and lower portions of right and left walls of the four sides of the underground pit, And a geothermal heat pipe for supplying geothermal heat to the inside of the underground pit is installed on the lower part of the underground pit, And an upper end of a heat exchange pipe extending to be exposed to the inside of the cultivation room is installed so as to be connected to the heat exchange pipe, And a blower for allowing the air to flow into the underground pit after heat exchange with the heat, and at the night, when the reductant members are moved to be accommodated in the underground pit, the blower is operated to supply the air to the heat exchange pipe. The present invention also provides a plant cultivation apparatus using an underground pit for allowing the inside of the underground pit to flow into the underground pit through a geothermal supply pipe after the heat exchange with the geothermal heat in the process.

In addition, the present invention provides a plant cultivation apparatus using an underground pit for providing an opening and closing opening and closing plate on the upper part of the underground pit, and opening and closing the upper part as necessary, thereby further improving the insulation efficiency.

The plant cultivation apparatus using the underground pit according to the embodiment of the present invention is characterized in that the plant cultivated using the geothermal heat of which the temperature change is not large is warmed and the electricity or the fossil fuel is not used, Waste of resources and cooling and heating costs is reduced, and production cost is significantly lowered, resulting in a significant improvement in price competitiveness.

In addition, since electricity and fossil fuel are not used, there is also an advantage that maintenance for cooling and heating is very simple and easy.

FIG. 1 is a side view schematically showing an example of a conventional plant cultivation system
2 is a side view schematically showing a plant cultivation apparatus using the underground pit according to an embodiment of the present invention.
Fig. 3 is a plan view of a plant cultivation apparatus using an underground pit according to Fig. 2
Fig. 4 is a partially cutaway view of the plant cultivation apparatus using the underground pit according to Fig. 2
Fig. 5 is a partial cut-away side view of the plant cultivation apparatus using the underground pit according to Fig. 2
FIG. 6 is a side view of the underground pit in FIG. 5,
Fig. 7 is a side view of the circulator shown in Fig. 2,
FIG. 8 is a rear view of a part of the circulator shown in FIG. 2,
FIG. 9 is a cross-sectional view showing an enlarged view of the heat exchange pipe in FIG.
Fig. 10A is a perspective view partially showing another example of the heat exchange pipe applied to Fig.
10B is an enlarged longitudinal sectional view of the heat exchange pipe of FIG.

Hereinafter, a plant cultivation apparatus using an underground pit according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a side view schematically showing a plant cultivation apparatus using an underground pit according to an embodiment of the present invention, FIG. 4 is a partially cutaway rear view of a plant cultivation apparatus using an underground pit according to FIG. 2, FIG. 6 is an enlarged side view showing the use state of the underground pit in FIG. 5, and FIG. 7 is a side view showing an enlarged part of the circulatory system shown in FIG. 2. FIG. And FIG. 8 is a rear view of an enlarged portion of a circulator shown in FIG.

The plant cultivation apparatus using the underground pit according to an embodiment of the present invention includes a cultivation room 10, a circulator 20 installed inside the cultivation room, and a circulation unit 20 for circulating the inside space of the cultivation room A nutrient solution supply unit 40 installed at intervals to supply the nutrient solution to the cultivation cylinder member, a nutrient solution supply unit 40 for supplying the nutrient solution to the cultivating cylinder member, and an underground pit 50 A plurality of guide chain gears 60 installed on the underground pit, and a heat exchange pipe installed in a state of being surrounded by the outside of the underground pit at a predetermined interval in a spiral form, 70) and an upper end of a heat exchange pipe extending to be exposed to the inside of the cultivation room are connected to each other, and air is supplied to the heat exchange pipe and is heat-exchanged with the geothermal heat, And an air blower (80) for blowing air.

The cultivation room 10 is provided with a four-sided wall and a ceiling such as a general greenhouse or a vinyl house with a transparent member such as a plastic or transparent plastic plate or an acrylic resin plate or a glass plate, Install worker's door for cultivation management and harvesting.

The circulator 20 includes a deceleration motor 21, a plurality of chain gears 22 and left and right chains 23. The chain gears and chains are connected to the planting room 10 through a speed reduction motor 21, Considering the type, etc., it is installed so as to utilize the internal space to the maximum.

When the circulator 20 is installed in the cultivation room 10 in the state as shown in FIG. 3, the front and rear ends of the left and right lower horizontal bars 111 forming the frame 11 and the inner surface of the intermediate position The chain gears 22 are provided in correspondence with each other so as to correspond to the left and right sides of the position lower than the chain gears on the front and rear end sides on the front side of the gear as the rear end position of the chain gears provided on the lower horizontal side The left and right upper horizontal bands 112 forming the frame are provided with chain gears 22 'corresponding to the intermediate positions between the chain gears provided on the lower horizontal base, 22, respectively.

The left and right chains 23 are connected to the front chain gear 22 of the upper horizontal bar 112 and the gears of the intermediate horizontal position of the upper horizontal bar, The rear chain gear and the rear gear position of the lower horizontal band, and the inside of the underground pit 50 and the chain gear 22 '.

The left and right chains 23 are connected to the chain gear 22 'and the front end chain 23' by the gear 22, which is the front end position of the lower horizontal band 111 to be rotated by receiving the driving force of the deceleration motor 21. [ The gears of the front chain gear 22 of the upper horizontal bar 112 and the gears of the intermediate position between the lower horizontal bar and the rear chain gear of the upper horizontal bar and the lower horizontal gear of the lower horizontal bar When it passes through the chain gear at the rear end position, it moves up and down repeatedly in oblique directions.

When the reductant member 30 is installed in the left and right chains 23, the retaining pieces 31 attached to the left and right upper surfaces of the reductant members on the hook pins 24, which are fixed to the inner surfaces of the left and right chains at regular intervals, And the re-extending member is installed only at the portion between the chain gear 22 at the front end position of the lower horizontal base 111 of the left and right chains and the chain gear 22 at the rear end position.

In order to do so, the plants housed in the respective tubular members 30 are stopped in the diagonal direction so as to be able to receive the sunlight uniformly throughout the daytime in the cultivation room 30, So that they can all be accommodated inside the underground pit 50 as shown in FIG.

The reel unit 30 is provided at predetermined intervals in the right and left chains as well as the chain gears 22 and 22 'and the right and left chains 23 of the circulator 20 operating in this way. The structures and the installation states of the nutrient solution supply units 40 installed in the lower part of the frame 11 to supply the nutrient solution are not limited to the description of the prior application (10-2011-0014232) of the applicant of the present application, Is omitted.

The underground pit 50 is constructed by excavating the inner bottom of the cultivation room 10 to a predetermined depth and includes inlet / outlet ports 52 and 52 'formed long left and right before and after the top surface, Closing plates 53 and 53 'to be opened and closed.

The input / output ports 52 and 52 'are formed so as to be positioned directly below the gear 22, which is the rear end position of the lower horizontal base 111, and the chain gear 22' 23) pass through the underground pit (50).

The opening and closing plates 53 and 53 'are provided at the upper and lower ends of the inlet and outlet openings 52 and 52' when the reductant container 30 installed at a predetermined interval in the left and right chains 23 enters or exits the inside of the underground pit 50 And simultaneously opens or closes the inlet or outlet when it is desired to prevent sudden changes in the internal temperature and humidity of the underground pit.

At this time, the opening and closing plates 53 and 53 'may be controlled by the degree of opening and closing according to the internal temperature or humidity, or may be manually closed by an operator or automatically closed by a general automatic opening and closing system And a groove (not shown) through which the left and right chains 23 pass is formed on the opening / closing plate, thereby preventing the opening and closing of the opening and closing plate from being interrupted.

On the other hand, a drainage passage 54 is provided on either one of the bottom surfaces of the underground pit 50 to collect water droplets due to moisture condensation or the like and to drain them to the outside, and at the same time, As shown in FIG.

The guide chain gears 60 are installed in the upper middle portion and the lower front portion of the right and left walls of the four side walls 51 of the underground pit 50 so as to be vertically shifted from each other.

The left and right chains 23 enter the underground pit 50 through the inlet 52 in the gear 22 located at the rear end position of the lower horizontal band 111 and guide the lower rear guide The chain gear and the guide chain gear in the middle of the upper part and the guide chain gear in the lower front side, and then through the outlet 52 'to hang over the chain gear 22'.

Accordingly, the left and right chains 23 pass through the guide chain gears 60 in the vertical direction while repeatedly moving up and down within the underground pit 50. At this time, the lengths of the right and left chains So that all of the refill barrels 30, which have been deployed in the cultivation room 10 during the day, are accommodated in the underground pit.

The upper end of the heat exchange pipe 70 is exposed to the inside of the cultivation room 10 and connected to the blower 80. The lower end 70a is installed in a state where the outer lower side of the underground pit 50 is surrounded And a geothermal heat pipe 71 for communicating the lower end portion and the lower side of the underground pit.

The plurality of geothermal heat supply pipes 71 are connected to the four-sided walls 51 and the corresponding lower ends 70a at a predetermined distance, so that the geothermal heat is supplied from the lower side of the four-sided wall to the underground pit 50 It is preferable that the whole is supplied at the same time.

The blower 80 includes a first suction pipe 811 which is opened and closed by a damper and sucks room air in the cultivation room 10 and a second suction pipe 812 which pipes the outside end to the outside and sucks outdoor air And a discharge port 82 for connecting the upper end of the heat exchange pipe 70 with the suction port 81 connected thereto.

When the blower 80 is opened while the first suction pipe 811 is opened and the second suction pipe 811 is closed, room air is sucked and supplied to the heat exchange pipe 70, while the first suction pipe is closed, When the suction pipe is opened, the outdoor air is supplied to the heat exchange pipe, exchanges heat with the geothermal heat, and then flows into the underground pit (50) through the geothermal heat pipe (71)

The indoor / outdoor air is selectively supplied to the heat exchange pipe 70 when the temperature of the underground pit 50 is to be maintained (heated) higher than the cultivation room 10 by supplying the room air to the heat exchange pipe The indoor heat exchanger is heat-exchanged with the geothermal heat of the geothermal exchange pipe where the geothermal heat is higher than the indoor air and is converted into warm air and then flows into the underground pit. When the temperature of the underground pit is to be maintained Is supplied to the heat exchange pipe and is heat-exchanged with the geothermal heat of the geothermal heat exchange pipe where the geothermal heat is conducted at a relatively low temperature, so that it is converted into cold wind and then flows into the underground pit.

That is, if the internal temperature of the cultivation room 10 is lower than the optimum temperature for plant cultivation at night, the columns 30 are accommodated in the underground pit 50 to supply the heat exchanged warm air with the geothermal heat, When the internal temperature of the cultivation room becomes higher than the proper temperature even at night, it is cooled by supplying cool air with heat exchange with the geothermal heat, so that it always grows at an appropriate temperature.

In addition, as shown in FIG. 8, it is preferable that heat exchange fins 72 are laid on either the inner or outer surface or the inner or outer surface of the heat exchange pipe 70 at regular intervals to maximize the heat exchange efficiency with the geothermal heat.

The heat exchange pipe 70 is provided with a heat exchange pipe in which a heating medium is circulated to be heated or cooled by a heat pump as in the cooling / heating system 10-1180319 using geothermal heat of the present invention, The efficiency may be further maximized.

In the plant cultivation apparatus using the underground pit according to the embodiment of the present invention, in the daytime, the reed rollers 30 in which the plants are accommodated are stopped in a state of being deployed in the cultivation chamber 10 as shown in FIG. 2 And when the internal temperature of the cultivation room becomes lower or higher at night so as to hinder the cultivation of the plant, the circulation unit 20 is operated to move the refilling cylinder members to the inside of the underground pit 50 .

When the inside of the underground pit 50 does not maintain the proper temperature, the blower 80 is operated before the reductant members 30 are moved, and hot air or cold air, which is heat-exchanged with the geothermal heat by the heat exchange pipe 70, Is first supplied to the underground pit, and the refill can be moved and received in a state where the proper temperature is maintained.

In addition, in the above-described embodiment, the chain gear 22 is disposed in the cultivation room 10 at the intermediate position between the front and rear ends of the left and right lower horizontal bands 111 and the lower horizontal bands of the left and right upper horizontal bands 112 And the guide chain gear 60 is mounted on the underground pit 50 in the middle of the upper and lower walls of the four side walls 51 and three The number of the cultivating rooms and the number of underground pits increases according to the size of the cultivating room and the underground pit. It goes without saying that the present invention belongs to the scope of the present invention.

FIG. 10A is a perspective view partially showing another example of the heat exchange pipe applied to FIG. 2, and FIG. 10B is an enlarged vertical sectional view of the heat exchange pipe of FIG. 10A.

The heat exchange pipe 70 according to this other example is provided with an even number of coupling grooves 73 formed on the inner surface at regular intervals along the longitudinal direction and a plurality of coupling grooves 73 which are proportional to the interval between a pair of adjacent coupling grooves And a heat exchange member (74) having a plurality of heat exchanging fins (72) formed at predetermined intervals on the inner surface, and a binding piece (741) .

That is, the heat exchange member 74 is manufactured separately from the heat exchange pipe 70, and the fastening pieces 741 provided at both ends are fitted to the corresponding pair of fastening grooves 73 in the longitudinal direction, 72) on the inner surface.

In this case, rather than making the heat exchange fin 72 integrally attached to the heat exchange pipe 70, the number of fabrication and assembly operations is increased. However, it is very difficult and difficult to manufacture the heat exchange fin integrally on the inner surface Compared to this, there is an advantage that manufacturing is very simple.

In addition, the number of the coupling grooves 73 formed in an even number may be formed to be an even number of at least four according to the diameter of the heat exchange pipe 70, or the interval may be made large, The number and position of the heat exchange member 74 may be adjusted as necessary.

10: Cultivation room 11: Frame
20: circulator 22, 22 ': chain gear
23: left and right chain 30:
50: underground pit 52,52 ': exit and entrance
53, 53 ': opening / closing plate 60: guide chain gear
70: heat exchange pipe 71: geothermal heat pipe
72: heat exchange fin 73:
74: heat exchange member 741: binding groove
80: blower 811: first suction pipe
812: the second suction pipe

Claims (9)

A cultivation room 10 in which a frame 11 formed with left and right lower horizontal bars 111 and upper horizontal bars 112 is installed and a front and rear ends of the lower horizontal bars 111, Side chain gears 22 disposed on the left and right sides of the lower horizontal base 111 and the chain gears 22 provided on the rear end side of the lower horizontal base 111 are provided on the left and right sides of the chain gears 22, Chain gears 22 installed at the front and rear positions of the upper horizontal base 112 corresponding to the middle between the chain gears 22 'installed and the chain gears 22 provided at the lower horizontal base 111, And a left and a right chain 23 for hanging the left and right chain gears 22 and 22 'respectively; and a circulator 20 for circulating the inner space of the cultivation room 10 by the circulator 20 (30) which are installed on both sides of the left and right chains (23) at regular intervals and accommodate germinated plants, In,
An underground pit (50) installed at an inner bottom of the cultivation room (10) at a predetermined depth;
A plurality of guide chain gears 60 disposed above and below the left and right walls of the underground pit 50 to straddle the left and right chains 23;
A heat exchange pipe (70) installed in a state of spirally surrounding the outside of the underground pit (50) and spaced apart from the outside by a predetermined distance, and performing heat exchange with the geothermal heat while passing air; And
The upper end of a heat exchange pipe (70) extending to be exposed to the interior of the cultivation room (10) is connected to the heat exchange pipe (70) And an air blower (80) for allowing the air to flow therethrough. The method according to claim 1,
The underground pit 50 is installed by digging the inner bottom of the cultivation room 10 to a predetermined depth and includes a gear 22 as a rear end position of the lower horizontal bar 111 and a chain gear 22 ' An opening / closing plate 52 (52 ') which is located directly below the upper surface and laterally to the left and right, and an opening / closing plate 53 53 ').≪ / RTI > 3. The method according to claim 1 or 2,
Wherein the guide chain gears (60) installed on the underground pit (50) are installed respectively in the upper middle part and the lower part of the right and left walls of the four side walls (51) of the underground pit (50) Used plant cultivation equipment. The method according to claim 1,
The heat exchange pipe 70 includes a lower end portion 70a which is formed by horizontally wrapping the lower outer side of the underground pit 50 and a lower end portion 70b which is formed by connecting the lower end portion 70a and the lower side of the underground pit 50 And a geothermal heat supply pipe (71). The method according to claim 1,
The heat exchange pipe 70 includes a lower end portion 70a which is formed by horizontally wrapping the outer lower side of the underground pit 50 and a lower end portion 70a which communicates the lower end portion 70a with the lower side of the underground pit 50 And a plurality of geothermal heat supply pipes (71) installed at regular intervals. The method according to claim 4 or 5,
Wherein the heat exchange pipe (70) comprises a heat exchange fin (72) laid on the inner surface at regular intervals. The method according to claim 4 or 5,
The heat exchange pipe 70 includes an even number of coupling grooves 73 formed on the inner surface at regular intervals along the longitudinal direction and a pair of coupling grooves 73 adjacent to each other in the coupling grooves 73 And a heat exchanging member 74 having a plurality of heat exchanging fins 72 formed at predetermined intervals on the inner surface of the heat exchanging member 74, Wherein the plant cultivation apparatus further comprises an underground pit. 8. The method of claim 7,
Wherein the binding grooves (73) are formed in four or more even numbers. The method according to claim 1,
The blower 80 includes a first suction pipe 811 which is opened and closed by a damper and sucks room air in the cultivation room 10 and a second suction pipe 812 , And a discharge port (82) for connecting the upper end of the heat exchange pipe (70).

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