JP7089670B2 - Seedling raising device and how to use it - Google Patents

Description

The present invention relates to an apparatus for raising seedlings, as an example.

As described in Patent Document 1 below, it has been proposed to put a tent sheet inside the nursery house in order to easily keep the heat inside the nursery house.

Japanese Unexamined Patent Publication No. 62-11032

In the conventional seedling raising device, trays are arranged in a shelf shape, and the whole house or a part thereof is kept warm by a heat insulating sheet to form an optimum environment for raising seedlings. This is to provide a shelf and cover the outer circumference with a sheet to keep warm. However, it has been difficult to keep the temperature of each part of the entire tray uniform, efficiently and quickly.
Therefore, it is an object of the present invention to provide a seedling raising device capable of promptly and uniformly performing heat retention (cooling), irrigation, and fertilization for raising seedlings.

The invention according to claim 1 includes a bottom plate 1 and
A large number of heat storage balls 2 placed on the bottom plate 1 and
A temperature control pipe 3 attached to the bottom plate 1 or inserted between the heat storage balls 2 and
A top plate 4 arranged on the heat storage ball 2 is provided.
In the seedling raising device for raising seedlings on the upper plate 4 ,
A frame portion 5 is vertically formed on the outer periphery of the bottom plate 1, and a large number of the heat storage balls 2 are arranged on the bottom plate 1 via a heat insulating material 6.
This is a seedling raising device in which one or more of a tray 7 for raising seedlings, a bottom water supply sheet 9, and a nutrient solution film 10 are arranged on the upper plate 4 .

In the invention according to claim 2 , the heat storage ball 2 is any of a black body raw material, a ceramic base material, silicon carbide (SiC), alumina (Al ₂ O ₃ ), silicon nitride (Si ₃ N ₄ ), and pebbles. Or a mixture of them,
The seedling raising device according to claim 1 , wherein the heat storage ball 2 has a substantially diameter of 6 mm to 10 mm and a thermal conductivity of 20 to 60 W / m · K.

The invention according to claim 3 comprises an arch-shaped or phylum-shaped small frame 11 that surrounds a small area in which a lower end is erected on the bottom plate 1, the upper plate 2, or the frame portion 5 to raise seedlings.
A sheet 12 for heat insulation or cold insulation coated on the outer periphery of the small frame 11 and
The seedling raising device according to claim 1 , further comprising any one or more of a mist pipe 15 for cooling and / or foliar spraying attached to the small frame 11 and an upper temperature control pipe 14.
The present invention according to claim 4 includes a bottom plate 1 and
A large number of heat storage balls 2 placed on the bottom plate 1 and
A temperature control pipe 3 attached to the bottom plate 1 or inserted between the heat storage balls 2 and
A top plate 4 arranged on the heat storage ball 2 is provided.
In the seedling raising device for raising seedlings on the upper plate 4,
An arch-shaped or phylum-shaped small frame 11 that surrounds a small area in which a lower end is erected on the bottom plate 1 or the upper plate 2 to raise seedlings.
A sheet 12 for heat insulation or cold insulation coated on the outer periphery of the small frame 11 and
A seedling raising device having one or more of a mist pipe 15 for cooling and / or foliar spraying and an upper temperature control pipe 14 attached to the small frame 11.

In the invention according to claim 5 , the mist pipe 15 is arranged on the upper portion of the small frame 11.
The upper temperature control pipe 14 is arranged at a position at an intermediate height of the small frame 11.
The seedling raising device according to claim 3 or 4, wherein a drip type water supply pipe 20 is arranged on the upper plate 4.

In the invention according to claim 6 , the seedling raising device is formed in a seedling raising unit 16 having a fixed size, a plurality of seedling raising units 16 are arranged on a gantry 17, and each pipe of each seedling raising unit 16 has a connector 18. Connected through or continuously,
The whole including the gantry 17 is stored in the cultivation house 19 of an arbitrary shape,
The seedling raising device according to any one of claims 3 to 5 , wherein the sheet 12 covering the small frame 11 covers the upper end portion or more of the gantry 17.

The invention according to claim 7 is the method of using the seedling raising device.
With the upper plate of the seedling raising device covered with a heat insulating sheet, hot water is supplied to the temperature control pipe 3 to heat the area below the upper plate to a predetermined temperature, and the heat storage section heating step.
Next, the step of removing the heat insulating sheet and arranging the seedlings to be raised on the heated upper plate,
The method of using the seedling raising device according to any one of claims 1 to 6, wherein the seedling raising device is provided.

The invention according to claim 8 is the method of using the seedling raising device.
In the season when the outside air is hot, the upper part of the seedling raising device is covered with an arch type or a phyla having a width of 60 cm to 200 cm with a cooling sheet 12 and provided above the inside of the arch type or the phyla. 6. This is how to use the seedling raising device.

The invention according to claim 9 is the method of using the seedling raising device.
Claims 3 to claim 3 , wherein in the season when the outside air becomes hot, warm water is supplied to the temperature control pipe 3 and the upper temperature control pipe 14 to sterilize the soil of the seedling raising device, and then the seedling raising is started. Item 6 is a method of using the seedling raising device according to any one of Items 6.

According to the first aspect of the present invention, a large number of heat storage balls 2 are arranged on a bottom plate 1, the temperature of which is adjusted by a temperature control pipe 3, and seedlings are raised on the upper plate 4 of the heat storage balls 2. Is.
Therefore, the temperature of the upper plate 4 can be adjusted uniformly and efficiently, and seedlings can be raised in an energy-saving and clean environment.

Further , the frame portion 5 is raised on the bottom plate 1, and the heat storage balls 2 are arranged on the bottom plate 1 via the heat insulating material 6, and the seedling raising tray 7, the bottom water supply sheet 9 such as non-woven fabric, and the nutrient solution film 10 are arranged on the top plate 4. When any one or more of the above is arranged , the heat storage ball 2 is heated and its heat retaining effect is high, and seedlings can be raised with energy saving.

In the invention according to claim 2 , the heat storage ball 2 is a black body raw material and a ceramic base material, silicon carbide (SiC), alumina (Al ₂ O ₃ ), silicon nitride (Si ₃ N ₄ ), or any one of pebbles. , Or a mixture thereof, the substantial diameter of which is 6 mm to 10 mm, and the thermal conductivity thereof is 20 to 60 W / m · K.
By using such a heat storage ball, it is possible to raise seedlings with higher heat retention and heat retention effect and energy saving.

According to claim 3 or 4 , the bottom plate 1 or the frame portion 5 is provided with a small frame 11 such as an arch type or a gate type that surrounds a small area for raising seedlings, and the outer periphery thereof is a sheet for heat insulation or cold insulation. It is covered with 12 and the small frame 11 is provided with one or more of a mist pipe 15 for cooling and / or foliar spraying and an upper temperature control pipe 14.
By covering the outer periphery of the small frame 11 with the heat-retaining or cold-retaining sheet 12 in this way, the effect of heat-retaining or cold-retaining is enhanced, and energy-saving seedlings can be raised. Further, since various pipes are provided on the small frame 11, it is easy to install, water and the like can be efficiently sprayed, the heating or cooling effect is high, and irrigation and fertilization can be easily performed.

In the invention according to claim 5, the mist pipe 15 is arranged on the upper portion of the small frame 11, the upper temperature control pipe 14 is arranged at an intermediate height position of the small frame 11, and the drip type water supply is provided on the upper plate 4. The pipe 20 is arranged. The mist pipe 15 can also be used as a irrigation pipe.
By arranging various pipes in this way, irrigation, mist spraying, and heating can be effectively performed.

In the invention according to claim 6, the seedling raising device is formed in a seedling raising unit 16 having a fixed size, a plurality of seedling raising units 16 are arranged on a gantry 17, and each pipe of each seedling raising unit 16 is continuous with a connector or the like. It is connected to.
According to the present invention, by making each seedling raising unit 16 lightweight and connecting them, large-scale seedling raising can be easily performed.

The method of using the seedling raising device according to claim 7 is to supply hot water to the temperature control pipe 3 in a state where the upper plate of the seedling raising device is covered with a heat insulating sheet, and heat the area below the upper plate to a predetermined temperature. The seedlings to be raised are placed on the heated upper plate through the heating step of the heat storage section.
Therefore, the seedlings can be raised quickly and the seedlings can be protected from the outside air.

The method of using the seedling raising device according to claim 8 is to cover the upper part of the seedling raising device with an arch shape or a portal shape having a width of 60 cm to 200 cm with a cooling sheet 12 in the high temperature season of the outside air. Cooling mist is sprayed into the device from above the inside of the arch type or the gate type, and only the inside of the device surrounded by the sheet 12 is cooled by the heat of vaporization of the mist.
As a result, it is possible to raise seedlings in the summer by effectively cooling the seedling raising range with energy saving.

The method of using the seedling raising device according to claim 9 is to supply warm water to the temperature control pipe 3 and the upper temperature control pipe 14 to sterilize the soil of the seedling raising device and the seedling raising device in the season when the outside air is high temperature. , The seedling raising is started.
As a result, stable seedling raising becomes possible.

An exploded perspective view of the seedling raising device of the present invention. FIG. 1 is a schematic cross-sectional view taken along the line II-II of FIG. The perspective view which shows an example of the tray 7 used for this apparatus. A cross-sectional view showing the assembled state of the device. Same side view. Explanatory drawing of the seedling raising apparatus 28 in a cultivation house 19. Same plan view. A plan view and a connection explanatory view of the seedling raising device 28 as a seedling raising unit 16.

Next, an embodiment of the present invention will be described with reference to the drawings.
1 to 5 show a first embodiment of the present invention, FIG. 1 is an exploded perspective view thereof, and FIG. 4 is a cross-sectional view showing an assembled state of the apparatus. FIG. 5 is a side view thereof.
In this seedling raising device 28, a square frame portion 5 is raised and formed on a bottom plate 1 made of plywood or the like, a heat insulating material 6 is housed inside, and a temperature control pipe 3 is arranged on the heat insulating material 6. Hot water or cold water is supplied to the inside of the temperature control pipe 3. Then, a large number of heat storage balls 2 are stored on the heat insulating material 6 including the temperature control pipe 3.

As shown in FIG. 2, the heat storage ball 2 is housed in the frame portion 5 so that the temperature control pipe 3 is embedded. The upper plate 4 is arranged so as to cover the upper part of the laminated body of a large number of heat storage balls 2 to form the seedling raising device 28. As shown in FIGS. 1 and 4, the frame portion 5 is preferably formed so that its height is higher than that of the upper plate 4 so that water can be retained.
The heat-storing ball 2 is made of a black material and a ceramic base material, silicon carbide (SiC), alumina (Al ₂ O ₃ ), silicon nitride (Si ₃ N ₄ ), pebbles, or a mixture thereof. It is preferable that the substantial diameter thereof is 6 mm to 10 mm and the thermal conductivity is 20 to 60 W / m · K.

Here, the arrangement of the frame portion 5 and the heat insulating material 6 may or may not be arbitrary. That is, by making the bottom plate 1 and the top plate 4 into a box shape, it is possible to omit the configuration. At that time, the upper plate 4 has an edge portion formed in a stepped manner in the same manner as the frame portions 5 of FIGS. 1 and 4 so as to be able to retain water.
It is desirable that the seedling raising device 28 sequentially stacks the nutrient solution film 10 and the bottom water supply sheet 9 on the upper plate 4. The tray 7 is placed on the upper plate 4 via the nutrient solution film 10 and the bottom water supply sheet 9. The tray 7 may be placed on the upper plate 4 as it is. In this example, a tray 7 made of a resin material as shown in FIG. 3 can be used. Then, the hilling 21 is stored in each cup, and the seeds and seedlings 29 are stored there.

Both ends of the small frame 11 can be attached to the seedling raising device 28 via the socket fitting 22. The attachment portions at both ends of the small frame 11 may be any of the bottom plate 1, the upper plate 4, and the frame portion 5.
As shown in FIGS. 1 and 4, the small frame 11 has an outer frame 11a whose shape is formed in an arch shape or a phylum shape surrounding the nursery area, and an inner frame 11b is provided at a position at an intermediate height thereof. Have. The mist pipe 15 is arranged at the top of the outer frame 11a, and the upper temperature control pipe 14 is arranged at regular intervals on the inner frame 11b.

As an example, as shown in FIG. 4, the sheet 12 is coated on the small frame 11 in the low temperature season. Then, hot water is supplied to the temperature control pipe 3 and the upper temperature control pipe 14, and the inside of the seedling raising unit 16 is uniformly kept warm via the heat storage ball 2. Hot water or cold water is supplied to the temperature control pipe 3 and the upper temperature control pipe 14 depending on the season, and the inside of the seedling raising unit 16 is maintained at an optimum temperature for raising seedlings of the seedling 29.
Further, a drip type water supply pipe 20 can be piped on the water supply sheet 9 (see FIG. 1), and water supply is continuously or intermittently supplied on the water supply sheet 9.

The seedling raising device 28 as described above can be used as the seedling raising unit 16, and each seedling raising unit 16 can be connected and used as shown in FIGS. 5 to 8.
When the seedling raising unit 16 is connected and used, as shown in FIG. 8, the temperature control pipe 3 is arranged in the longitudinal direction of the seedling raising device 28, and the outward path and the return path are alternately arranged in the width direction thereof. Then, it is preferable that the temperature control pipes 3 are connected to each other via the connector 18. It is also possible to connect continuously without going through the connector 18. In this example, the temperature control pipe 3 is formed in a U shape so that the fluid flow can make a U-turn at the portion of the end seedling raising unit 16 at the rear end, which will be described later.
The upper temperature control pipe 14 can be a pipe for the outward path and the return path similar to the temperature control pipe 3. Further, it is preferable that the mist pipe 15 and the drip type water supply pipe 20 can also be connected to each other between the seedling raising units 16.

In FIG. 8, the head seedling raising unit 16 is arranged at the head, a large number of intermediate seedling raising units 16 are arranged in the middle, and the end seedling raising unit 16 is arranged at the rear end. FIG. 5 is a diagram showing a state in which a large number of seedling raising units 16 are arranged in parallel.
As shown in FIG. 4 and the like, the connected body of these seedling raising units 16 is placed on the gantry 17 via the support plate 23. Then, as shown in FIG. 6, the whole of the seedling raising unit 16 including the gantry 17 is housed in the cultivation house 19 having an arbitrary shape. The cultivation house 19 includes a house frame 19a and a house sheet 19b.
As shown in FIG. 4, it is preferable that the sheet 12 covering the small frame 11 covers the upper end portion or more of the gantry 17.

FIG. 6 shows an example of raising seedlings, and the two columns on the left show the upper heating, the heat insulating sheet, and the lower heating performed at the same time, respectively. In addition, the two columns on the right show only the lower heating. Any of these can be appropriately selected depending on the type of seed, the season, and the like.
Further, FIG. 7 is a plan view showing piping as an example. In the figure, a biomass boiler 24, a heat storage tank 25, and a methane fermentation tank 26 are arranged in a cultivation house 19, and they are piped to a header 31, and hot or cold water is supplied to each seedling raising unit 16 via the header 31. Supply and liquid fertilizer supply are performed. FIG. 6 shows the state of the piping of the drip type water supply pipe 20. The mist pipe 15 can also be piped to the header 31 in the same manner as the drip type water supply pipe 20. Further, it is desirable that both ends of the temperature control pipe 3 and the upper temperature control pipe are piped to the header 31 so that they can be circulated.
In FIG. 4, the mist pipe 15 can be used as a irrigation pipe for supplying the mist of microbubbles, and can cool the inside of the sheet 12 and supply water to the seedlings 29 in the summer when the temperature is high. Is. It is preferable that each seedling raising unit 16 is provided with a drainage pipe (not shown).
In the embodiments introduced above, the fluids circulating inside the temperature control pipe 3 and the upper temperature control pipe 14 can be appropriately changed.

(how to use)
In winter, the seedling raising unit 16 is covered with a heat insulating sheet, hot water is supplied to the temperature control pipe 3, and the heat storage section heating step of heating the area below the upper plate 4 to a predetermined temperature is first performed.
Next, the heat insulating sheet is removed, and the seedling raising body is placed on the heated upper plate 4.

Next, in the season when the outside air is hot, the upper part of the seedling raising unit 16 is covered with a cold insulation sheet 12 in an arch shape or a gantry with a width of 60 cm to 200 cm, and from above the inside of the arch shape or the gantry. The cooling mist is sprayed from the mist pipe 15 into the device. Then, only the inside of the device surrounded by the sheet 12 is cooled by the heat of vaporization of the mist.

The seedling raising device starts raising seedlings after sufficiently sterilizing the soil of the seedling raising device by supplying warm water having a relatively high temperature to the temperature control pipe 3 and the upper temperature control pipe 14 in the season when the outside air becomes high temperature. It is also possible.

1 Bottom plate 2 Heat storage ball 3 Temperature control pipe 4 Top plate 5 Frame part 6 Insulation material 7 Tray 9 Water supply sheet 10 Hydroponic film 11 Small frame 11a Outer frame 11b Inner frame

12 Sheet 14 Upper temperature control pipe 15 Mist pipe (including irrigation pipe)
16 Seedling raising unit 17 Stand 18 Connector 19 Cultivation house 19a House frame 19b House sheet 20 Drip type water supply pipe

21 Hilling 22 Socket metal fittings 23 Support plate 24 Biomass boiler 25 Heat storage tank 26 Methane fermentation tank 28 Seedling raising device 29 Seedling 31 Header

Claims (9)

Bottom plate (1) and
A large number of heat storage balls (2) placed on the bottom plate (1),
With the temperature control pipe (3) attached to the bottom plate (1) or inserted between the heat storage balls (2),
A top plate (4) arranged on the heat storage ball (2) is provided.
In the seedling raising device for raising seedlings on the upper plate (4) .
A frame portion (5) is vertically formed on the outer periphery of the bottom plate (1), and a large number of the heat storage balls (2) are arranged on the bottom plate (1) via a heat insulating material (6). ,
A seedling raising device in which one or more of a tray for raising seedlings (7), a bottom water supply sheet (9), and a nutrient solution film (10) are arranged on the upper plate (4) . The heat-storing ball (2) is a black body raw material and a ceramic base material, silicon carbide (SiC), alumina (Al ₂ O ₃ ), silicon nitride (Si ₃ N ₄ ), any one of pebbles, or a mixture thereof. And,
The seedling raising device according to claim 1 , wherein the heat storage ball (2) has a substantially diameter of 6 mm to 10 mm and a thermal conductivity of 20 to 60 W / m · K. An arch-shaped or phylum-shaped small frame (11) that surrounds a small area in which a lower end is erected on the bottom plate (1), the upper plate (2), or the frame portion (5) to raise seedlings.
A sheet (12) for heat insulation or cold insulation coated on the outer periphery of the small frame (11), and
The first aspect of the present invention, wherein the pipe has one or more of a mist pipe (15) for cooling and / or foliar spraying attached to the small frame (11) and an upper temperature control pipe (14). Seedling raising device. Bottom plate (1) and
A large number of heat storage balls (2) placed on the bottom plate (1),
With the temperature control pipe (3) attached to the bottom plate (1) or inserted between the heat storage balls (2),
A top plate (4) arranged on the heat storage ball (2) is provided.
In the seedling raising device for raising seedlings on the upper plate (4).
An arch-shaped or phylum-shaped small frame (11) that surrounds a small area where a lower end is erected on the bottom plate (1) or the upper plate (2) to raise seedlings.
A sheet (12) for heat insulation or cold insulation coated on the outer periphery of the small frame (11), and
A seedling raising device having one or more of a mist pipe (15) for cooling and / or foliar spraying attached to the small frame (11) and an upper temperature control pipe (14) . The mist pipe (15) is arranged on the upper part of the small frame (11).
The upper temperature control pipe (14) is arranged at an intermediate height position of the small frame (11).
The seedling raising device according to claim 3 or 4, wherein a drip type water supply pipe (20) is arranged on the upper plate (4). The seedling raising device is formed in a seedling raising unit (16) having a fixed size, a plurality of seedling raising units (16) are arranged on a gantry (17), and each pipe of each seedling raising unit (16) is connected to a connector (18). Connected via or continuously,
The whole including the gantry (17) is housed in an arbitrary shape cultivation house (19).
The seedling raising device according to any one of claims 3 to 5 , wherein the sheet (12) covering the small frame (11) covers the upper end portion or more of the gantry (17). In the method of using the seedling raising device,
With the upper plate of the seedling raising device covered with a heat insulating sheet, hot water is supplied to the temperature control pipe (3) to heat the area below the upper plate to a predetermined temperature, and the heat storage section heating step.
Next, the step of removing the heat insulating sheet and arranging the seedlings to be raised on the heated upper plate,
The method of using the seedling raising device according to any one of claims 1 to 6, wherein the seedling raising device is provided. In the method of using the seedling raising device,
In the season when the outside air is hot, the upper part of the seedling raising device is covered with an arch type or a gate shape having a width of 60 cm to 200 cm with a cooling sheet (12), and above the inside of the arch type or the gate type. Claims 3 to 3 , wherein the cooling mist is sprayed from the provided mist pipe (15) into the inside of the device, and only the inside of the device surrounded by the sheet (12) is cooled by the heat of vaporization of the mist. The method of using the seedling raising device according to any one of 6 . In the method of using the seedling raising device,
A claim characterized in that, in a season when the outside air is hot, warm water is supplied to the temperature control pipe (3) and the upper temperature control pipe (14) to sterilize the soil of the seedling raising device, and then the seedling raising is started. Item 6. The method of using the seedling raising device according to any one of claims 3 to 6 .

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