KR102647914B1 - bean sprouts cultivation apparatus - Google Patents

Abstract

The present invention relates to a bean sprout cultivation device with a new structure that can effectively purify and recycle the water used for growing bean sprouts.
The bean sprout cultivation device according to the present invention is a pretreatment unit that is connected to the lower cultivation tank 14 through a drain pipe 14b and generates bubbles in the water discharged from the lower cultivation tank 14 to remove contaminants contained in the water. (A), a first filtering unit 40 that is connected to the water collection tank 20 through a first connection pipe 41 and filters the water discharged from the pretreatment unit (A), and a second connection pipe 51 ) and a second filtering unit 50 that is connected to the first filtering unit 40 to secondarily purify the water passing through the first filtering unit 40, and a third connection pipe 61. 2 A second filter is connected to the filtering unit 50 and connected to the water storage tank 15a through the return pipe 65 to purify the water that has passed through the second filtering unit 50 three times and return it to the water storage tank 15a. 3 A filtering unit 60 is further provided to first remove contaminants such as proteins from the water discharged from the lower cultivation tank 14 using a pretreatment unit A, and then filters the water discharged from the lower cultivation tank 14 through the first to third filtering units 40. , 50, 60), water is repeatedly filtered using elvan stones (44, 54, 64) and activated carbon (43), black carbon (53), or white carbon (63), and supplied to the water storage tank (15a). Recycle. Therefore, there is an advantage in reducing the amount of water used when growing bean sprouts.

Description

Bean sprout cultivation apparatus {bean sprouts cultivation apparatus}

The present invention relates to a bean sprout cultivation device with a new structure that can effectively purify and recycle the water used for growing bean sprouts.

Figure 1 shows an example of a bean sprout cultivation device used to grow bean sprouts, including a support 11 and a water supply plate provided on the support 11 and having a plurality of drainage holes 12a on the bottom plate so as to penetrate the upper and lower surfaces. (12), an upper cultivation trough (13) provided on the support (11) so as to be located on the lower side of the water supply plate (12) and having a plurality of drainage holes (13a) formed on the bottom plate so as to penetrate the upper and lower surfaces, and the upper cultivation trough (13) It consists of a lower cultivation tank 14 provided on the support 11 so as to be located below the tank 13, and a water supply means 15 connected to the water supply plate 12 to supply water.

The support 11 is made of high-strength stainless steel.

The water supply plate 12 is configured in the form of a box with an open top.

The upper and lower cultivation bins 13 and 14 are provided with perforated plates 13b and 14a therein, and are configured to grow bean sprouts on the upper part of the perforated plates 13b and 14a.

In addition, a drain pipe (14b) is provided on one side of the lower cultivation container (14).

The water supply means 15 includes a water storage tank 15a storing water therein, a water supply pipe 15b extending from the water storage tank 15a to the upper part of the water supply plate 12, and a water supply pipe 15b provided in the water supply pipe 15b. It consists of a water pump (15c).

At this time, the water stored in the water storage tank 15a contains nutrients.

Therefore, when the water pump 15c is driven, the water stored in the water storage tank 15a is supplied to the water supply plate 12 and then into the upper cultivation tank located below through the drain hole 12a of the water supply plate 12. The water supplied to (13) and the upper cultivation container (13) is supplied to the lower cultivation container (14) located below through the drain hole (13a) of the upper cultivation container (13).

And, the water supplied to the lower cultivation tank 14 is discharged to the outside through the drain pipe 14b.

Accordingly, water is supplied to the bean sprouts arranged in the upper and lower cultivation bins 13 and 14, so that the bean sprouts can be grown.

However, since the water used for growing bean sprouts in this bean sprout cultivation device contains various contaminants, including protein, the water discharged from the lower cultivation bin 14 is not recycled and is discarded.

Therefore, there was a problem in that a very large amount of water was used when growing bean sprouts.

Therefore, a new method to solve these problems has become necessary.

Registered Utility Model No. 20-0282109,

The present invention is intended to solve the above problems, and its purpose is to provide a bean sprout cultivation device with a new structure that can effectively purify and recycle the water used for growing bean sprouts.

The present invention for achieving the above object includes a support 11, a water supply plate 12 provided on the support 11 and a bottom plate with a plurality of drain holes 12a penetrating the upper and lower surfaces, and the water supply plate 12. (12) is provided on the support 11, and the bottom plate has a plurality of drainage holes 13a formed to penetrate the upper and lower surfaces, and an upper cultivation container 13 is located on the lower side of the upper cultivation container 13. It includes a lower cultivation tank 14 provided on the support 11 as much as possible, and a water supply means 15 connected to the water supply plate 12 to supply water, and the water supply means 15 has water inside. A bean sprout cultivation device including a stored water storage tank (15a), a water supply pipe (15b) connecting the water storage tank (15a) and the upper cultivation tank (13), and a water pump (15c) provided in the water supply pipe (15b). A pretreatment unit (A) connected to the lower cultivation tank 14 through a drain pipe 14b and generating bubbles in the water discharged from the lower cultivation tank 14 to remove contaminants contained in the water; 1 A first filtering unit 40 that is connected to the water collection tank 20 through a connection pipe 41 and filters the water discharged from the pretreatment unit (A), and a first filtering unit 40 through a second connection pipe 51. A second filtering unit (50) connected to the filtering unit (40) to secondarily purify the water that has passed through the first filtering unit (40), and the second filtering unit (50) through a third connection pipe (61). A third filtering unit (60) is connected to the water storage tank (15a) through a return pipe (65) and purifies the water that has passed through the second filtering unit (50) three times and returns it to the water storage tank (15a). It further includes, wherein the first filtering unit 40 includes a first purification tank 42 connected to the first connection pipe 41, activated carbon 43 and elvan stone 44 stored inside the purification tank, , the second filtering unit 50 includes a second purification tank 52 connected to the second connection pipe 51, and black charcoal 53 and elvan stone 54 stored inside the second purification tank 52. It includes, the third filtering unit 60 includes a third purification tank 62 connected to the third connection pipe 61, and white charcoal 63 and elvan stone 64 stored inside the third purification tank 62. ) A bean sprout cultivation device is provided, comprising:

According to another feature of the present invention, the pretreatment unit (A) includes a bottom plate (21), front and rear plates (22, 23) extending upward from the circumference of the bottom plate (21), and both side plates (24). It is connected to the drain pipe 14b, and a ventilation hole 27 is formed in the rear plate 23 to be close to the top, and a guide rail 29 extending in the vertical direction is provided on the rear side of the front plate 22. The water collection tank 20 and the rear plate 23 of the water collection tank 20 are arranged to slope downwardly from the top to the front, so that the internal space of the water collection tank 20 is divided into the water supply part 25 and the drainage part 26. The slant plate 31 for partitioning, the ventilation pipe 28 provided to extend rearward and upward from the ventilation hole 27, the air supply pump 32, and the slant plate 31 so as to be submerged in water stored in the water collection tank 20. ) is provided on the upper surface of the air stone (33) and is connected to the air supply pump (32) to discharge the air supplied by the air supply pump (32) in the form of bubbles to generate bubbles in the water, and the guide rail (29) ) and a buoyancy body 34 that floats on the surface of the water stored in the water collection tank 20 and is coupled to the buoyancy body 34, and is provided to face rearward at an upper position of the water surface in the buoyancy body 34 and the air supply pump 32. An air nozzle (35) connected to the air supply pump (32) to blow the air supplied by the air supply pump (32) backwards so that the bubbles are discharged to the rear of the water collection tank (20) along the inclined plate (31), and the back plate (23) ( It consists of a control means 37 that receives a signal from 36 and controls the operation of the supply pump 38, and the control means 37 feeds back the signal of the water level measurement means 36 to control the supply pump 38. By controlling 38), a bean sprout cultivation device is provided, characterized in that the level of water stored in the water collection tank 20 is maintained constant.

The bean sprout cultivation device according to the present invention is a pretreatment unit that is connected to the lower cultivation tank 14 through a drain pipe 14b and generates bubbles in the water discharged from the lower cultivation tank 14 to remove contaminants contained in the water. (A), a first filtering unit 40 that is connected to the water collection tank 20 through a first connection pipe 41 and filters the water discharged from the pretreatment unit (A), and a second connection pipe 51 ) and a second filtering unit 50 that is connected to the first filtering unit 40 to secondarily purify the water passing through the first filtering unit 40, and a third connection pipe 61. 2 A second filter is connected to the filtering unit 50 and connected to the water storage tank 15a through the return pipe 65 to purify the water that has passed through the second filtering unit 50 three times and return it to the water storage tank 15a. 3 A filtering unit 60 is further provided to first remove contaminants such as proteins from the water discharged from the lower cultivation tank 14 using a pretreatment unit A, and then filters the water discharged from the lower cultivation tank 14 through the first to third filtering units 40. , 50, 60), water is repeatedly filtered using elvan stones (44, 54, 64) and activated carbon (43), black carbon (53), or white carbon (63), and supplied to the water storage tank (15a). Recycle.

Therefore, there is an advantage in reducing the amount of water used when growing bean sprouts.

Figure 1 is a front cross-sectional diagram showing a conventional bean sprout cultivation device;
Figure 2 is a front cross-sectional diagram showing the bean sprout cultivation device according to the present invention;
Figure 3 is a front cross-sectional diagram showing the pretreatment unit of the bean sprout cultivation device according to the present invention;
Figure 4 is a block diagram of the preprocessing unit of the bean sprout cultivation device according to the present invention;
Figure 5 is a front cross-sectional view showing the first to third filtering units of the bean sprout cultivation apparatus according to the present invention.

Hereinafter, the present invention will be described in detail based on the attached illustration drawings.

Figures 2 to 5 show a bean sprout cultivation device according to the present invention, including a support 11 and a water supply plate provided on the support 11 and having a plurality of drainage holes 12a on the bottom plate so as to penetrate the upper and lower surfaces. 12), and an upper cultivation trough 13 provided on the support 11 to be located below the water supply plate 12 and having a plurality of drainage holes 13a in the bottom plate so as to penetrate the upper and lower surfaces, and the upper cultivation trough The lower cultivation tank 14 provided on the support 11 so as to be located on the lower side of (13) and the water supply means 15 connected to the water supply plate 12 to supply water are the same as before. .

At this time, the support 11, the water supply plate 12, and the upper and lower cultivation tanks 13 and 14 are the same as the conventional ones, and detailed description thereof will be omitted.

In addition, the water supply means 15 is provided with a water storage tank 15a storing water therein, a water supply pipe 15b connecting the water storage tank 15a and the upper cultivation tank 13, and the water supply pipe 15b. The configuration of the water pump 15c is also the same as before.

And, according to the present invention, a pretreatment unit is connected to the lower cultivation tank 14 through the drain pipe 14b and generates bubbles in the water discharged from the lower cultivation tank 14 to remove contaminants contained in the water ( A), a first filtering unit 40 connected to the water collection tank 20 through a first connection pipe 41 and filtering the water discharged from the pretreatment unit (A), and a second connection pipe 51 A second filtering unit 50 is connected to the first filtering unit 40 and secondarily purifies the water passing through the first filtering unit 40, and the second filtering unit 50 is connected to the first filtering unit 40 through a third connection pipe 61. A third filter is connected to the filtering unit 50 and connected to the water storage tank 15a through a return pipe 65 to purify the water that has passed through the second filtering unit 50 three times and return it to the water storage tank 15a. A filtering unit 60 is further provided.

As shown in FIGS. 3 and 4, the pretreatment unit (A) includes a sump 20 connected to the drain pipe 14b, a slant plate 31 provided on the sump 20, and an air supply pump. (32), an air stone (33) connected to the air supply pump (32), a buoyancy body (34) provided to be able to go up and down inside the water collection tank (20), and a buoyancy body (34) provided An air nozzle 35 connected to the air supply pump 32, a water level measuring means 36 provided at the front upper part of the rear plate 23 to measure the level of water stored in the water collection tank 20, and the 1 It consists of a supply pump 38 provided in the connector 41 and a control means 37 that receives a signal from the water level measurement means 36 and controls the operation of the supply pump 38.

The water collection tank 20 is composed of a bottom plate 21, front and rear plates 22 and 23 extending upward from the circumference of the bottom plate 21, and both side plates 24.

In addition, a guide rail 29 extending in the vertical direction is provided on the rear side of the front plate 22.

In addition, the front plate 22 and both sides plates 24 are configured to be high, and the top of the rear plate 23 is configured to be lower than the height of the both sides plates 24.

The inclined plate 31 is disposed to slope downward from the top of the rear plate 23 to the front, dividing the internal space of the water collection tank 20 into a water supply portion 25 and a drainage portion 26.

At this time, the drain pipe 14b is connected to the front plate 22 and is configured to supply water to the water supply unit 25.

In addition, the front end of the sloping plate 31 is configured to be spaced upward from the bottom surface of the water collection tank 20, so that the water inside the water supply unit 25 flows between the sloping plate 31 and the bottom surface of the water collecting tank 20. It is configured to move to the drain 26 through the space.

At this time, a ventilation hole 27 is formed close to the top of the rear plate 23 of the water collection tank 20, and the ventilation hole 27 is provided with a ventilation pipe 28 extending rearward and upward.

Therefore, when water is supplied to the water supply unit 25 through the drain pipe 14b, depending on the level of water supplied to the water supply unit 25, the air in the drain unit 26 is discharged to the outside through the ventilation pipe 28. or external air is supplied to the drain unit 26 through the ventilation pipe 28, so that the water level inside the drain unit 26 is maintained at the same level as the water supply unit 25.

The air supply pump 32 is connected to the air stone 33 and the air nozzle 35 through the air supply pipe 32a, and supplies air at a constant pressure to the air stone 33 and the air nozzle 35.

The air stone 33 is provided on the upper surface of the inclined plate 31 to be submerged in water stored in the water collection tank 20, and has a plurality of through holes to discharge the air supplied from the air supply pump 32 to the periphery. By doing so, bubbles are generated in the water stored in the water collection tank 20.

That is, the water stored in the water collection tank 20 is discharged from the upper and lower cultivation containers 13 and 14, and thus contains contaminants such as proteins and various other foreign substances, and air is added to the water containing the contaminants. When supplied, bubbles are generated, and the bubbles thus generated rise to the top of the water.

At this time, proteins and foreign substances are mixed in the foam.

The buoyancy body 34 is made of a cylindrical shape made of synthetic resin with a space formed therein, and is coupled to the guide rail 29 so as to be able to move up and down, so that it rises to the surface of the water stored in the water collection tank 20.

The air nozzle 35 is located on the rear side of the buoyancy body 34 above the water surface of the water stored in the water collection tank 20 and is provided to face rearward, so that the air supplied from the air supply pump 32 Spray backwards.

When air is sprayed in this way, the air pushes the bubbles that rise to the top of the water backward.

The water level measuring means 36 uses a pair of water detection sensors provided at the upper front of the back plate 23 so that they are spaced apart from each other in the vertical direction.

The supply pump 38 operates according to the control signal of the control means 37, so that the water in the drain part 26 is supplied to the first filtering unit 40 through the first connection pipe 41. .

Meanwhile, when the water in the drain part 26 is discharged to the first filtering unit 40, the water inside the water supply part 25 moves to the drain part 26, and the water supply part 25 and the drain part ( The water level in 26) always remains the same.

The control means 37 controls the operation of the supply pump 38 while feeding back the signal from the water level measuring means 36, so that the water level stored in the drain unit 26 is maintained at a preset height.

In addition, a collection tank 39 is provided on the rear side of the rear plate 23 of the water collection tank 20 to collect foam pushed to the rear.

The collection tank 39 is configured to have an outlet 39a formed on the lower side so that the bubbles collected inside are discharged to the outside through the outlet 39a.

The operation of the preprocessing unit (A) configured as described above is explained as follows.

First, in a state where air is supplied to the air stone 33 and the air nozzle 35 by the air supply means, the water discharged from the lower cultivation tank 14 flows into the water collection tank 20 through the drain pipe 14b. When supplied to the water supply unit 25, bubbles are generated by the air discharged from the air stone 33, and the bubbles thus generated rise to the surface of the water stored in the water collection unit.

Then, the foam is pushed backward by the air sprayed from the air nozzle 35, and at this time, the foam is discharged to the rear of the water collection tank 20 along the inclined surface of the inclined plate 31.

Accordingly, contaminants including proteins and various other foreign substances contained in the water supplied to the water collection unit are removed along with the foam.

At this time, the foam discharged to the rear of the collection tank 20 is collected in the collection tank 39 and then discharged to the outside through the discharge port 39a.

And, as described above, water from which proteins or contaminants have been removed moves to the drain unit 26 through the lower side of the inclined plate 31.

At this time, the control means 37 drives the supply pump 38 while feeding back the signal from the water level measuring means 36, so that the water level stored in the drain part 26 is maintained at a constant level.

In this way, when the water level of the water supply unit 26 is maintained at a constant level, the water level of the water supply unit 25 is also maintained at a constant level as in the drainage unit 26, and accordingly, the water stored in the drainage unit 26 is maintained at a constant level. The process in which bubbles floating to the surface of the water are discharged to the outside along the inclined plate 31 becomes smooth.

As shown in FIG. 5, the first filtering unit 40 includes a first purification tank 42 connected to the first connection pipe 41, activated carbon 43 and elvan stone 44 stored inside the purification tank. It consists of

The front end of the first connection pipe 41 is connected to the lower side of the drain part 26 of the water collection tank 20, and the rear end is connected to the upper surface of the first purification tank 42.

The activated carbon 43 and the elvan stone 44 are disposed inside the first purification tank 42 so as to be repeatedly stacked.

Since the activated carbon 43 and the elvan stone 44 are generally used to purify water, further detailed description thereof will be omitted.

The second filtering unit 50 consists of a second purification tank 52 connected to the second connection pipe 51, and black charcoal 53 and elvan stone 54 stored inside the second purification tank 52. do.

Both ends of the second connection pipe 51 are connected to the lower side of the first purification cylinder 42 and the upper surface of the second purification cylinder 52.

The black charcoal 53 is charcoal made by roasting wood at 600 to 800 degrees and then cooling it slowly. It is porous and has the advantage of excellent adsorption of contaminants contained in water.

At this time, the black coal 53 and the elvan stone 54 are placed inside the second purification tank 52 so as to be repeatedly stacked.

The third filtering unit 60 consists of a third purification cylinder 62 connected to the third connection pipe 61, and white charcoal 63 and elvan stone 64 stored inside the third purification cylinder 62. do.

Both ends of the third connection pipe 61 are connected to the lower side of the second purification cylinder 52 and the upper surface of the third purification cylinder 62.

The white charcoal (63) is charcoal made by roasting wood at 1000 to 1200 degrees and quickly cooling it. It has a hard surface and high carbon content, so it has the advantage of excellent sterilization effect.

At this time, the white coal 63 and the elvan stone 64 are placed inside the third purification tank 62 so as to be repeatedly stacked.

The return pipe 65 connects the third purification tank 62 and the water storage tank 15a.

At this time, the first to third filtering units (40, 50, and 60) are placed on a pedestal (not shown), so that the first filtering unit (40) is the highest and the third filtering unit (60) is placed at the lowest. The water supplied to the filtering unit 40 is automatically supplied to the third filtering unit 60 by its own weight and then to the water storage tank 15a.

Therefore, the water from which proteins or bulky contaminants have been removed by passing through the pretreatment unit (A) is sequentially filtered through the first filtering unit (40), the second filtering unit (50), and the third filtering unit (60). As it passes, fine contaminants contained in the water are removed and sterilized, and then discharged into the water storage tank (15a) through the return pipe (65) and stored.

The bean sprout cultivation device configured in this way is connected to the lower cultivation tank 14 through a drain pipe 14b and generates bubbles in the water discharged from the lower cultivation tank 14 to remove contaminants contained in the water. A), a first filtering unit 40 connected to the water collection tank 20 through a first connection pipe 41 and filtering the water discharged from the pretreatment unit (A), and a second connection pipe 51 A second filtering unit 50 is connected to the first filtering unit 40 and secondarily purifies the water passing through the first filtering unit 40, and the second filtering unit 50 is connected to the first filtering unit 40 through a third connection pipe 61. A third filter is connected to the filtering unit 50 and connected to the water storage tank 15a through a return pipe 65 to purify the water that has passed through the second filtering unit 50 three times and return it to the water storage tank 15a. A filtering unit 60 is further provided, and contaminants such as proteins are first removed from the water discharged from the lower cultivation tank 14 using a pretreatment unit A, and then the first to third filtering units 40, Water is repeatedly filtered using elvan stones (44, 54, 64) and activated carbon (43), black carbon (53), or white carbon (63) provided in 50, 60, and supplied to the water storage tank (15a) for recycling. do.

Therefore, there is an advantage in reducing the amount of water used when growing bean sprouts.

In addition, the pretreatment unit (A) is composed of a bottom plate 21, front and rear plates 22 and 23 extending upward from the circumference of the bottom plate 21, and both side plates 24, and the drain pipe 14b ) is connected to the rear plate (23), and a ventilation hole (27) is formed close to the top of the rear plate (23), and a guide rail (29) extending in the vertical direction is provided on the rear side of the front plate (22). And, an inclined plate 31 disposed to slope downward from the top of the rear plate 23 of the water collection tank 20 and dividing the internal space of the water collection tank 20 into a water supply part 25 and a drainage part 26. And, a ventilation pipe 28 extending rearward from the ventilation hole 27, an air supply pump 32, and a water sump 20 are provided on the upper surface of the inclined plate 31 to be immersed in the water stored in the water sump 20. An air stone (33) is connected to the air supply pump (32) and discharges the air supplied by the air supply pump (32) in the form of bubbles to generate bubbles in the water, and is coupled to the guide rail (29) to enable elevation. A buoyancy body 34 that rises to the surface of the water stored in the water collection tank 20, is provided at the upper position of the water surface in the buoyancy body 34 and faces backwards, and is connected to the air supply pump 32 to provide an air supply pump ( An air nozzle (35) that blows the air supplied by 32) backwards so that the bubbles are discharged to the rear of the water collection tank (20) along the inclined plate (31), and is provided on the upper front side of the back plate (23). receiving signals from the water level measuring means 36, which measures the level of water stored in the drain unit 26, the supply pump 38 provided in the first connector 41, and the water level measuring means 36. It is composed of a control means 37 that controls the operation of the supply pump 38, creates bubbles in the water stored in the water collection tank 20, and then removes the foam by pushing it to the outside of the water collection tank 20, It has the advantage of effectively removing proteins and other contaminants contained in water.

A. Preprocessing unit 40. First filtering unit
50. Second filtering unit 60. Third filtering unit

Claims (2)

Support (11),
A water supply plate (12) provided on the support (11) and having a plurality of drain holes (12a) penetrating the upper and lower surfaces of the bottom plate,
An upper cultivation trough (13) provided on the support (11) to be located below the water supply plate (12) and having a plurality of drainage holes (13a) penetrating the upper and lower surfaces of the bottom plate;
A lower cultivation container (14) provided on the support (11) to be located below the upper cultivation container (13),
It includes a water supply means (15) connected to the water supply plate (12) to supply water,
The water supply means (15) is
A water storage tank (15a) with water stored therein,
A water supply pipe (15b) connecting the water storage tank (15a) and the upper cultivation tank (13),
In the bean sprout cultivation device including a water pump (15c) provided in the water supply pipe (15b),
A pretreatment unit (A) connected to the lower cultivation tank (14) through a drain pipe (14b) and generating bubbles in the water discharged from the lower cultivation tank (14) to remove contaminants contained in the water;
A first filtering unit (40) connected to the water collection tank (20) through a first connection pipe (41) to filter the water discharged from the pretreatment unit (A),
A second filtering unit (50) connected to the first filtering unit (40) through a second connection pipe (51) to secondarily purify the water that has passed through the first filtering unit (40);
It is connected to the second filtering unit 50 through a third connection pipe 61 and to the water storage tank 15a through a return pipe 65 to filter the water that has passed through the second filtering unit 50 in three ways. It further includes a third filtering unit (60) that purifies and returns it to the water storage tank (15a),
The first filtering unit 40 is
A first purification tank (42) connected to the first connection pipe (41),
It includes activated carbon (43) and elvan stone (44) stored inside the purification tank,
The second filtering unit 50 is
A second purification tank (52) connected to the second connection pipe (51),
It includes black coal (53) and elvan stone (54) stored inside the second purification tank (52),
The third filtering unit 60 is
A third purification tank (62) connected to the third connection pipe (61),
It includes white charcoal (63) and elvan stone (64) stored inside the third purification tank (62),
The preprocessing unit (A) is,
It consists of a bottom plate 21, front and rear plates 22, 23 extending upward from the circumference of the bottom plate 21, and both side plates 24, and is connected to the drain pipe 14b, and the rear plate 23 A water collection tank (20) with a ventilation hole (27) formed close to the top and a guide rail (29) extending in the vertical direction on the rear side of the front plate (22),
An inclined plate (31) disposed to slope downward from the top of the rear plate (23) of the water collection tank (20) to the front, dividing the internal space of the water collection tank (20) into a water supply part (25) and a drainage part (26);
A ventilation pipe (28) provided to extend rearward and upward from the ventilation hole (27),
An air supply pump (32),
It is provided on the upper surface of the inclined plate 31 to be submerged in the water stored in the water collection tank 20 and is connected to the air supply pump 32 to discharge the air supplied by the air supply pump 32 in the form of bubbles to form bubbles in the water. An air stone (33) that generates
A buoyancy body (34) that is movably coupled to the guide rail (29) and rises to the surface of the water stored in the water collection tank (20);
The buoyancy body 34 is provided at the upper position of the water surface to face backwards and is connected to the air supply pump 32 to blow the air supplied by the air supply pump 32 backwards so that the bubbles form the sloping plate 31. An air nozzle (35) that is discharged to the rear of the water collection tank (20),
A water level measuring means (36) provided on the front upper part of the rear plate (23) to measure the level of water stored in the drain part (26),
A supply pump (38) provided in the first connection pipe (41),
It consists of a control means (37) that receives a signal from the water level measuring means (36) and controls the operation of the supply pump (38),
The control means 37 feeds back the signal from the water level measuring means 36 to control the supply pump 38, so that the water level stored in the water collection tank 20 is maintained constant. Cultivation device. delete

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