JP6814425B2 - Growth assistance device and plant growth device - Google Patents

Description

The present invention relates to a growth assisting device and a plant growing device that assist the growing of a plant by locally cooling or heating the plant planted in the medium.

When cultivating plants such as vegetables and fruits in an indoor cultivation space such as a greenhouse or a factory, the temperature of the cultivation space is generally adjusted in order to effectively grow or harvest the plants. Conventionally, in summer and winter, heating and cooling equipment has been used to cool or heat the cultivation space and maintain the temperature in the cultivation space at a temperature suitable for plant growth. However, such heating and cooling equipment is said to be very inefficient because it cools or heats not only the plants but also the entire cultivation space. Therefore, in order to control the temperature of the plant efficiently, various attempts have been made to assist the growth of the plant by locally cooling or heating the plant.

For example, Patent Document 1 discloses a greenhouse cultivation system that supplies cold air to a desired portion of a plant. The greenhouse cultivation system (1) uses at least one row of elevated cultivation beds (3) provided in the greenhouse (2). The greenhouse cultivation system (1) includes a first duct (11) made of a soft film, a second duct 12, which is harder than the first duct (11), a first duct (11), and a first duct (11). A plurality of third ducts (13) for intermittently connecting the two ducts (12) and a blower (20) for supplying gas to the second duct (12) are provided. The first duct (11) is arranged along the elevated cultivation bed (3) so as to pass in the vicinity of a plurality of strawberry seedlings (50) grown from the elevated cultivation bed (3). Further, in the first duct (11), a plurality of holes are formed so that gas is released toward the plurality of strawberry seedlings (50). The second duct (12) is arranged along the elevated cultivation bed (3) so as to pass through a position away from the plurality of strawberry seedlings (50) grown from the elevated cultivation bed (3). .. Then, the cold air (A) generated by the blower (20) is sent out through the second duct (12), the third duct (13), and the first duct (14), and is sent out through the first duct. The cold air (A) is discharged from the hole (11a) toward the strawberry seedling (50) to cool the strawberry seedling (50). The reference numerals of Patent Document 1 are shown in parentheses.

JP-A-2009-95293

However, in the conventional greenhouse cultivation system, the air discharged by the position of the hole formed in the first duct (cold air in the case of cooling the plant or warm air in the case of heating the plant) The problem was that the temperatures were significantly different. Specifically, when cooling a plant, in the technique of Patent Document 1, as the cold air sent from the blower toward the downstream side of the duct is warmed by the external environment, it is warmed by the external environment. The air discharged from the hole on the downstream side far from the blower is relatively warm with respect to the gas discharged. Alternatively, when the plant is heated, the warm air sent out from the blower is cooled by the external environment as it goes toward the downstream side of the duct, so that the gas discharged from the hole on the upstream side near the blower is opposed to the gas discharged. The air discharged from the hole on the downstream side far from the blower is relatively cold. That is, there is a risk that the cooling or heating of the plant planted at a position away from the upstream end of the duct will be insufficient. Therefore, it has been difficult to uniformly and appropriately control the temperature of plants arranged in a row in the longitudinal direction. Therefore, in the conventional system, it is necessary to set the temperature of the blower to the side where the load (energy consumption) of the blower is larger in consideration of the distance between the plant and the blower, and the efficiency of the temperature control of the plant is improved. The problem was that it got very bad. Therefore, there is a need for a system or device capable of more uniformly and efficiently controlling the temperature of a plurality of plants planted at a distance from each other.

The present invention has been made to solve the above problems, and an object of the present invention is a growth assisting device that assists the growth of a plant by cooling or heating the plant more efficiently, and the growth assist. An object of the present invention is to provide a plant growing device for growing a plant with the device.

The growth assisting device according to claim 1 is a growing assisting device that cools or heats a plant by blowing a gas locally on the plant.
A long duct body in which a gas is blown inside by a blower, and a duct having one or a plurality of outlets formed in the duct body so as to blow the gas toward a local part of the plant.
A water pipe extending along the duct and through which a cooling liquid or a heating liquid flows is provided.
The water pipe is characterized in that it cools or heats the gas inside the duct body in a long direction and adjusts the temperature of the gas blown out from the outlet.

The growth assisting device according to claim 2 is the growing assisting device according to claim 1, wherein the water pipe is spirally wound around the inner circumference or the outer circumference of the duct body. And.

The growth assisting device according to claim 3 is the growing assisting device according to claim 1, wherein the water pipe is a long body arranged inside the duct main body and formed in a square cross section. It is a feature.

The breeding assisting device according to claim 4 is the growing assisting device according to claim 3, wherein the water pipe is a wavy flexible pipe.

The growth assisting device according to claim 5 is the growing assisting device according to any one of claims 1 to 4, wherein the duct and the water pipe are flexible. ..

The growth assisting device according to claim 6 is the growing assisting device according to any one of claims 1 to 5, wherein the duct is made of a soft film.

The growth assisting device according to claim 7 is the growing assisting device according to any one of claims 1 to 5, wherein the duct is formed of a foamable heat insulating material.

The plant growing apparatus according to claim 8 is a plant growing apparatus for growing a plurality of plants by blowing gas locally on the plurality of plants planted in a medium to cool or heat the plurality of plants.
A medium in which the plurality of plants are planted or in which the plurality of plants are planted,
A long duct body that is arranged along the local areas of the plurality of plants and in which gas is blown inside by a blower, and formed on the duct body so as to blow the gas toward the local areas of the plurality of plants. A duct with multiple outlets
A water pipe extending along the duct and through which a cooling liquid or a heating liquid flows is provided.
The water pipe is characterized in that it cools or heats the gas inside the duct body in a long direction and adjusts the temperature of the gas blown out from the outlet.

The plant growing device according to claim 9 is the plant growing device according to claim 8, wherein the water pipe is spirally wound around the inner circumference or the outer circumference of the duct body. To

The plant growing device according to claim 10 is the plant growing device according to claim 8, characterized in that it is a long body arranged inside the duct main body and formed in a quadrangular cross section.

According to the growth assisting device according to claim 1 of the present invention, a water passage pipe through which the cooling liquid or the heating liquid passes extends along the duct, and the water passage pipe allows the gas inside the duct body to flow in the long direction. The temperature of the gas blown out from the outlet can be adjusted by cooling or heating the gas. That is, in the growth assisting device of the present invention, the water pipe functions as a cooling source or a heat source inside the duct when the gas from the blower flows inside the duct. Therefore, it is suppressed that the temperature of the gas discharged from the outlet greatly fluctuates due to the influence of the external environment according to the distance from the blower. Therefore, the growth assisting device of the present invention can provide efficient temperature control for plants planted away from the upstream end of the duct.

According to the growth assisting device according to claim 2 of the present invention, in addition to the invention according to claim 1, the water pipe is spirally wound around the inner or outer circumference of the duct body and arranged. The gas inside the duct can be effectively cooled or heated.

According to the growth assisting device according to claim 3 of the present invention, in addition to the invention according to claim 1, a water passage pipe, which is a long body formed in a rectangular cross section, is arranged inside the duct body. , The gas inside the duct can be effectively cooled or heated.

According to the growth assisting device according to claim 4 of the present invention, in addition to the invention according to claim 3, the water pipe is made into a wavy flexible pipe, so that the water pipe that comes into contact with gas inside the duct body can be used. The surface area was increased. As a result, the gas can be cooled or heated more effectively in the water pipe.

According to the growth assisting device according to claim 5 of the present invention, in addition to the invention according to any one of claims 1 to 4, the duct and the water pipe are made flexible, so that the plant can be grown. The duct and water pipe can be freely bent and arranged according to the planting position.

According to the growth assisting device according to claim 6 of the present invention, in addition to the invention according to any one of claims 1 to 5, the duct is made of a soft film, so that handling is easy. At the same time, it is possible to easily add an outlet according to the position of the plant whose temperature is controlled.

According to the plant growing apparatus according to claim 7 of the present invention, in addition to the invention according to any one of claims 1 to 5, the inside of the duct is formed by forming the duct with a foamable heat insulating material. It is possible to prevent the gas from being affected by the temperature outside the duct.

According to the plant growing apparatus according to claim 8 of the present invention, a water passage pipe through which the cooling liquid or the heating liquid passes extends along the duct, and the water passage pipe allows the gas inside the duct body to flow in the long direction. The temperature of the gas blown out from the outlet can be adjusted by cooling or heating the gas. That is, in the plant growing device of the present invention, when the gas from the blower flows inside the duct, the water pipe functions as a cooling source or a heat source inside the duct. Therefore, it is suppressed that the temperature of the gas discharged from the outlet greatly fluctuates due to the influence of the external environment according to the distance from the blower. As a result, a gas having an appropriate temperature can be sprayed on each local part of the plurality of plants planted in the medium. Therefore, the plant growing apparatus of the present invention can control the temperature of a plurality of plants more uniformly and efficiently, and can grow the plants in a more desirable temperature environment.

According to the plant growing apparatus according to claim 9, in addition to the invention according to claim 8, the water pipe is spirally wound around the inner circumference or the outer circumference of the duct body and arranged. The gas inside the duct can be effectively cooled or heated.

According to the plant growing apparatus according to claim 10, in addition to the invention according to claim 8, a water passage pipe, which is a long body formed in a rectangular cross section, is arranged inside the duct body. , The gas inside the duct can be effectively cooled or heated.

The schematic perspective view of the plant growing apparatus of one Embodiment (1st Embodiment) of this invention. The plan view of the plant growing apparatus of FIG. A cross-sectional view taken along the line AA of the plant growing apparatus of FIG. A partially enlarged view of the plant growing device of FIG. The schematic diagram which shows the modification of the plant growing apparatus of 1st Embodiment. The schematic diagram which shows the whole structure of the plant growing apparatus of 1st Embodiment. The schematic perspective view of the plant growing apparatus of one Embodiment (second Embodiment) of this invention. The plan view of the plant growing apparatus of FIG. BB sectional view of the plant growing apparatus of FIG. A partially enlarged view of the plant growing device of FIG. 7. (A) perspective view and (b) front view of the holder of the plant growing device of FIG. 7. The schematic diagram which shows the whole structure of the plant growing apparatus of 2nd Embodiment. The schematic perspective view which shows the plant growing apparatus of another embodiment of this invention. The schematic perspective view which shows the plant growing apparatus of another embodiment of this invention. The plan view of the plant growing apparatus of FIG. FIG. 15 is a sectional view taken along the line CC of the plant growing apparatus of FIG. FIG. 16 is a partially enlarged cross-sectional view of the plant growing apparatus of FIG. The schematic perspective view which shows the plant growing apparatus of another embodiment of this invention.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings. The shapes of the figures referred to in the following description are conceptual diagrams or schematic views for explaining suitable shape dimensions, and the dimensional ratios and the like do not always match the actual dimensional ratios. That is, the present invention is not limited to the dimensional ratio in the drawings.

The plant growing apparatus of one embodiment of the present invention grows a plant planted in a medium by locally cooling or heating it. The growth assisting device provided in the plant growing device is configured to assist and promote the growing of the plant by efficiently controlling the temperature of the plant. In the present embodiment, the plant is a strawberry seedling cultivated at a high place on a gantry in a house environment. In general, in greenhouse cultivation of strawberry seedling P, it is important to cool the strawberry seedling in the summer when the temperature is high and warm the strawberry seedling in the winter when the temperature is low. However, it is said that the technical idea of the present invention can be applied to temperature control in other plants such as fruits, vegetables and flowers and in different planting environments, and the present invention is not limited to the embodiments described below. Not to mention.

[First Embodiment]
The plant growing device 10 and the growing assisting device 100 of the first embodiment of the present invention will be described with reference to FIGS. 1 to 6. FIG. 1 is a schematic perspective view of the plant growing device 10. FIG. 2 is a schematic plan view of the plant growing device 10. FIG. 3 is a lateral (AA) cross-sectional view of the plant growing device 10. FIG. 4 is a partially enlarged view of FIG. FIG. 6 is a schematic view showing the overall configuration of the plant growing device 10.

As shown in FIG. 1, the plant growing device 10 includes a container 11 installed at a high place away from the ground indoors such as a vinyl house, and a medium 12 formed in the container 11 for planting strawberry seedlings P. And the growth assisting device 100 installed on the medium 12.

The container 11 is a rectangular housing that opens upward, and can hold a predetermined amount of soil. Further, the container 11 is formed in a substantially rectangular parallelepiped shape having a long side, and has a width direction and a longitudinal direction in a plan view (see FIG. 2). Then, the medium 12 is defined on the upper surface of the container 11 by filling the container 11 with the soil. In the present embodiment, the width of the container 11 is defined by a size (for example, about 0.4 m) in which two strawberry seedlings P can be arranged in the width direction. On the other hand, the total length of the container 11 is defined by a size (for example, about 10 m) in which a large number of strawberry seedlings P can be arranged along the longitudinal direction. Further, the container 11 is supported at a high place while floating from the ground by a gantry 13 composed of a plurality of legs (see FIG. 6). This allows the grower to work without bending. The container 11 of the present embodiment is made of a foamed resin such as Styrofoam, but may be made of any other material such as a hard synthetic resin or wood.

The medium 12 is a region having a predetermined width and extending in the longitudinal direction. As shown in FIG. 2, a plurality of strawberry seedlings P are continuously planted in the medium 12 at predetermined intervals along the longitudinal direction of the container 11. Then, two strawberry seedlings P are arranged near both ends in the width direction of the medium 12. That is, two rows of strawberry seedlings P are arranged in a straight line on the medium 12 of the plant growing device 10.

The growth assisting device 100 is installed on the container 11 and the medium 12 so that each strawberry seedling P or the medium 12 can be locally cooled or heated. The growth assisting device 100 extends along a plurality of ducts 101 (three in the present embodiment) arranged along the longitudinal direction of the container 11 and along with each of the ducts 101, and is cold water (coolant) or A plurality of (three in this embodiment) water passage pipes 104 through which hot water (warming liquid) passes through are provided. A support rail 109 extending along the longitudinal direction thereof is suspended and supported near the side surface of the container 11 or the gantry 13, and the duct 101 and the water pipe 104 are placed and supported by the support rail 109 or the medium 12. ing.

As shown in FIGS. 3 and 4, the duct 101 is formed on the long duct body 102 through which the gas is blown, and on the duct body 102 so as to blow the gas toward the local area of the strawberry seedling P or the medium 12. It has a plurality of outlets 103. The duct body 102 is a cylindrical body extending from one end to the other end of the container 11 in the longitudinal direction. Further, the duct main body 102 has an inlet through which gas is sent at one end, and the other end is closed (not shown). Then, a duct 107 for blowing air is connected to the entrance of the duct body 102. That is, when a temperature-controlled gas is sent from the conduit 107 to the inside of the duct 101, the gas flows from the upstream to the downstream of the duct 101, the air pressure of the entire inside of the duct 101 increases, and cold air or hot air flows from each outlet 103. It is released. In the present embodiment, the three ducts 101 are connected to the three-pronged ventilation duct 107, respectively. The two ducts 101 are supported by the support rails 109 on both sides of the container 11, and one duct 101 is arranged substantially in the center of the medium 12 in the width direction. However, in the present invention, the number of ducts can be increased or decreased according to the position of the plant, the area of the medium, and the like, and the installation position and means of installing the ducts can be arbitrarily changed.

As shown in FIGS. 3 and 4, a plurality of outlets 103 are perforated above the duct body 102 in the ducts 101 on both sides of the container 11 so as to mainly cool or heat the back of the leaves of the strawberry seedling P. ing. As shown in FIG. 3, in the central duct 101, a plurality of outlets 103 are provided under the duct body 102 mainly so as to cool or heat the crown portion (growth point) of the root of the strawberry seedling P and the medium 12. It is perforated on the side. The outlet 103 is regularly formed at the same position in the circumferential direction and at predetermined intervals over the entire longitudinal direction of the duct body 102. That is, in the present plant growing device 10 (or growing assisting device 100), a plurality of cold air or warm air is blown from the outlet 103 of the duct 101 to the strawberry seedling P and the medium 12 in the longitudinal direction of the medium 12. The temperature of the seedling row consisting of the strawberry seedlings P is controlled. However, the present invention is not limited to the present embodiment, and the outlet may be randomly formed at an arbitrary position in the radial direction.

Then, in the summer, cold air passing through the inside of the duct main body 102 is blown to the strawberry seedling P or the medium 12 from each outlet 103. The cold air is a gas whose temperature is relatively low with respect to the environmental temperature or the outside air temperature (the air temperature outside the duct 101). In winter, warm air passing through the inside of the duct body 102 is blown onto the strawberry seedling P or the medium 12 from each outlet 103. Warm air is a gas whose temperature is relatively high with respect to the environmental temperature or the outside air temperature. In this way, local temperature control of the strawberry seedling P is performed so that the strawberry seedling P is not exposed to an extremely high or low temperature environment.

In the present embodiment, the duct 101 is made of a flexible semitransparent resin soft film, and the material thereof can be selected from polyethylene, polypropylene, polyester, nylon and the like. As described above, since the duct 101 is made of a soft film, the outlet 103 can be easily added to an arbitrary position. Further, since the duct 101 is translucent, the state of the water pipe 104 arranged inside can be visually recognized. In the present embodiment, the diameter of the duct 101 is about 200 mm, but the diameter can be arbitrarily changed without being limited to the embodiment.

The water pipe 104 is configured to cool or heat the gas inside the duct main body 102 in a long direction and adjust the temperature of the gas blown out from the outlet 103 (cool or heat retention). Each water pipe 104 extends from the upstream end (one end) to the downstream end (other end) of each duct main body 102, and is spirally wound around the inner circumference of the duct main body 102. Then, one end and the other end of the water pipe 104 are connected to the water supply device 111. Specifically, the ends of the water supply pipe 104 on the water supply side and the drainage side are connected to the pipe 112 of the water supply device 111 via a joint, respectively.

Cold water (cooling liquid) or hot water (warming liquid) continuously flows from one end to the other inside the water pipe 104. In the present invention, the cold water (cooling liquid) does not indicate a liquid having a specific temperature, but is a liquid having a temperature at which at least the gas on the downstream side inside the duct main body 102 can be cooled (or kept cold). On the other hand, the hot water (warming liquid) does not indicate a liquid having a specific temperature, but is a liquid having a temperature at which at least the gas on the downstream side inside the duct main body 102 can be heated (or kept warm). Since the spiral water pipe 104 is arranged inside the duct main body 102, the water pipe 104 (and the liquid inside the water pipe 104) suppresses the temperature difference generated from the upstream to the downstream inside the duct 101. It functions to cool or heat the air in the duct 101.

Specifically, when cooling the strawberry seedling P in a high temperature environment such as summer, cold water is passed through the water pipe 104 inside the duct 101, and air is blown through the water pipe 104 over the long direction of the duct 101. The air (cold air) blown from the device 108 is cooled or kept cold. That is, the water pipe 104 serves as a cold heat source to prevent the gas in the duct 101 from being warmed by the outside air in summer, and the temperature distribution of the gas in the long direction of the duct 101 is maintained more uniformly. On the other hand, when the strawberry seedling P is heated in a low temperature environment such as winter, hot water is passed through the water pipe 104 inside the duct 101, and the blower 108 is connected to the water pipe 104 over the long direction of the duct 101. The air (warm air) blown from is heated or kept warm. That is, the water pipe 104 serves as a heat source to prevent the gas in the duct 101 from being cooled by the outside air in winter, and the temperature distribution of the gas in the long direction of the duct 101 is maintained more uniformly. That is, according to the present plant growing device 10, the temperature difference between the air blown from the air outlet 103 on the upstream side of the duct 101 and the air blown from the air outlet 103 on the downstream side is suppressed.

The water pipe 104 of the present embodiment is made of a flexible resin pipe made of polyethylene or the like. Further, the diameter of the water pipe 104 is about 15 mm. However, the water pipe of the present invention is not limited to the present embodiment, and its material and dimensions can be arbitrarily changed.

In the present embodiment, the spiral water pipe 104 is arranged inside the duct main body 102, but the present invention is not limited to the present embodiment as long as the inside of the duct 101 can be cooled or heated. For example, as in the growth assisting device 100'shown in FIG. 5, the water pipe 104' may be spirally wound and arranged around the outer circumference of the duct main body 102. Alternatively, although the efficiency of cooling or heating is reduced, a water pipe having a straight circular cross section may be passed through the inside of the duct.

FIG. 6 is a schematic view showing the entire system of the plant growing device 10 of the present embodiment. As shown in FIG. 6, a three-pronged conduit 107 connected to the three ducts 101 is connected to the blower 108. The blower 108 can blow cold air and / or hot air. For example, the blower 108 may be a general air conditioner composed of a heat exchanger including a compressor, an expansion valve, a condenser, and an evaporator. Cold air or hot air is discharged from the blower 108 so as to flow from the upstream to the downstream of the duct 101 through the three-pronged duct 107. In the present embodiment, the gas sent out from the blower 105 is air, but any other gas may be adopted.

The water supply device 111 includes a pipe 112 connected to the upstream and downstream ends of the water pipe 104 via a joint, and a circulation pump 113 to which the pipe 112 is connected. The pipe 112 on the upstream side is arranged in the pipe 107, penetrates the pipe wall of the pipe 107, and exits from the pipe 107. Further, the circulation pump 113 includes a discharge port and a suction port, and a pipe 112 is connected to each of them. The discharge port side (that is, upstream side) pipe 112 is connected to one end of the water pipe 104, and the suction port side (that is, downstream side) pipe 112 is connected to the other end of the water pipe 104. There is. That is, the liquid sent out from the discharge port of the circulation pump 113 is passed through the water pipe 104 through the pipe 112 on the discharge port side. Then, the liquid flowing out from the downstream end of the water pipe 104 flows into the suction port of the circulation pump 113 through the pipe 112 on the suction port side. The liquid that has flowed into the circulation pump 113 is again sent out from the discharge port toward the water pipe 104. In this way, in the plant growing device 10 of the present embodiment, a liquid (cold water or hot water) circulation system is configured. In the present embodiment, water is circulated and supplied to the water pipe 104, but other liquids such as oil may be used instead of water.

In the summer, the plant growing device 10 operates so as to circulate cold water by the circulation pump 113. On the other hand, in winter, the plant growing device 10 operates so as to circulate hot water by the circulation pump 113. In the present embodiment, a part (horizontal portion) of the water pipe 104 is buried in the ground. In general, the underground temperature is almost constant at about 15 ° C throughout the year, the underground temperature is lower than the environmental temperature (outside temperature) in summer, and the underground temperature is lower in winter. It is hotter than. Therefore, in the pipe 112 buried in the ground, cold water is generated in the summer when the liquid dissipates heat in the ground and becomes lower than the outside air. On the other hand, in winter, hot water is generated by collecting heat in the ground and making it hotter than the outside air. That is, the plant growing device 10 of the present embodiment effectively uses geothermal heat to adjust the water temperature to generate cold water or hot water to control the temperature of the strawberry seedling P.

Hereinafter, the effects of the plant growing device 10 and the growing assisting device 100 according to the first embodiment of the present invention will be described.

According to the plant growing device 10 and the growing assisting device 100 of the present embodiment, a water pipe 104 through which cold water or hot water passes extends along the duct 101. The water pipe 104 can cool or heat the gas inside the duct body 102 in the long direction, and appropriately adjust the temperature of the gas blown out from the outlet 103. That is, in the plant growing device 10 and the growing assisting device 100 of the present embodiment, when the air (cold air or hot air) from the blower device 108 flows inside the duct 101, the water pipe 104 is a cooling source or a heat source inside the duct 101. Functions as. In particular, since the water pipe 104 is wound in a spiral shape, the water pipe 104 or the water pipe 104 accommodated inside the duct main body 102 without obstructing the gas flow (compared to the case where the water pipe 104 is arranged in a straight shape). It is possible to effectively increase the volume of the liquid. As a result, the gas inside the duct 101 can be effectively cooled or heated. Therefore, it is suppressed that the temperature of the air discharged from the outlet 103 greatly fluctuates due to the influence of the external environment according to the distance from the blower 108. As a result, a gas having an appropriate temperature can be sprayed on each local portion of the plurality of strawberry seedlings P planted in the medium 12 and the entire longitudinal direction of the medium 12. Therefore, the plant growing device 10 and the growing assisting device 100 of the present embodiment can efficiently control the temperature over the entire row of strawberry seedlings P, and grow the strawberry seedlings P in a more desirable temperature environment. Can be done.

[Second Embodiment]
Next, the plant growing device 20 and the growing assisting device 200 of the second embodiment of the present invention will be described with reference to FIGS. 7 to 12. FIG. 7 is a schematic perspective view of the plant growing device 20 according to the second embodiment of the present invention. FIG. 8 is a schematic plan view of the plant growing device 20. FIG. 9 is a lateral (BB) sectional view of the plant growing device 20. FIG. 10 is a partially enlarged view of FIG. 7. FIG. 11 is a perspective view (a) and a front view (b) of the holder 205, which is a component of the training assist device 200. FIG. 12 is a schematic view showing the overall configuration of the plant growing device 20. In the drawings, unless otherwise specified, the components having the same last two digits in the three-digit components and the components having the same last one digit in the two-digit components are used. It has the same or similar characteristics.

As shown in FIG. 7, the plant growing device 20 includes a container 21 installed at a high place away from the ground indoors such as a vinyl house, and a medium 22 formed in the container 21 for planting strawberry seedlings P. And a growth assisting device 200 installed on the medium 22.

The growth assisting device 200 is installed on the container 21 and the medium 22 so that each strawberry seedling P or the medium 22 can be locally cooled or heated. The growth assisting device 200 extends along a plurality of ducts 201 (three in the present embodiment) arranged along the longitudinal direction of the container 21 and along each of the ducts 201, and is cold water (coolant) or A water pipe 204 through which hot water (warming liquid) passes through is provided. A support rail 209 extending along the longitudinal direction thereof is suspended and supported near the side surface of the container 21 or the gantry 23, and the duct 201 and the water pipe 204 of the growth assisting device 200 are mounted by the support rail 209 and the medium 22. Placed and supported.

As shown in FIGS. 8 and 9, the duct 201 is formed on the long duct body 202 through which the gas is blown and on the duct body 202 so as to blow the gas toward the local area of the strawberry seedling P or the medium 22. It has a plurality of outlets 203. The configuration of the duct 201 itself is the same as that of the duct 101 of the first embodiment.

As shown in FIGS. 9 and 10, a plurality of outlets 203 are perforated above the duct body 202 in the ducts 201 on both sides so as to mainly cool or heat the back of the leaves of the strawberry seedling P. As shown in FIG. 9, in the central duct 201, a plurality of outlets 203 are provided under the duct body 202 mainly so as to cool or heat the crown portion (growth point) of the root of the strawberry seedling P and the medium 22. It is perforated on the side. The outlet 203 is regularly formed at the same position in the circumferential direction and at predetermined intervals over the entire longitudinal direction of the duct main body 202. That is, in the plant growing apparatus 20, a row of seedlings composed of a plurality of strawberry seedlings P is formed by blowing cold air or warm air from the outlet 203 of the duct 201 onto the strawberry seedlings P and the medium 22 over the longitudinal direction of the medium 22. Temperature control is performed.

The water pipe 204 is configured to cool or heat the gas inside the duct body 202 over a long direction and adjust the temperature of the gas blown out from the outlet 203. In the second embodiment, the water pipe 204 is a flexible elongated body having a square cross section. That is, the water pipe 204 is composed of a square wavy flexible pipe in which concave portions and convex portions are alternately continuous in the elongated direction. Then, as shown in FIG. 9, the cross section of the water pipe 204 is formed in a substantially square shape. Each water pipe 204 is arranged inside the duct main body 202 so as to extend from one end to the other end of each duct main body 202. One end and the other end of the water pipe 204 are connected to the water supply device 211 so that water can flow. Specifically, the upstream and downstream ends of the water pipe 204 are connected to the pipe 212 via joints, respectively.

Further, the water pipe 204 is held substantially in the center (in the cross section) of the duct main body 202 by the holder 205. As shown in FIG. 9, by holding the water pipe 204 substantially in the center of the cross section of the duct 201 by the holder 205, the water pipe 204 moves on the outlet 203 in the duct 201 and suddenly closes the outlet 203. Is prevented.

11 (a) and 11 (b) are a perspective view and a front view of the holder 205. As shown in FIGS. 11A and 11B, the holder 205 holds a strip-shaped outer frame portion 205a curved in an arc shape and a duct 201 arranged inside the outer frame portion 205a. A portion 205b is provided with a plurality of beam-shaped portions 205c connecting the outer frame portion 205a and the holding portion 205b. The outer diameter of the outer frame portion 205a corresponds to the inner diameter of the duct main body 202. In particular, when the duct 201 is made of a soft film whose original shape is difficult to maintain, the holder 205 can maintain the cylindrical shape of the duct body 202 by abutting the outer surface of the outer frame portion 205a on the inner surface of the duct body 202. Be assisted. Further, the outer frame portion 205a is an opening through which the duct 201 can be inserted into the inner holding portion 205b, and a part thereof is open. The holding portion 205b is a thin plate piece extending in a U shape with one side open, and is configured to fit in the recess of the duct 201. That is, in a state where the duct 201 is held by the holding portion 205b, the holding portion 205b engages with the convex side wall surface, and the duct 201 is restricted from moving in the longitudinal direction with respect to the holder 205. Further, although the holding portion 205b is connected to the outer frame portion 205a by a plurality of thin rod-shaped beam-shaped portions 205c, there is no other meat portion between the beam-shaped portions 205c. Therefore, it is suppressed as much as possible that the holding tool 205 reduces the ventilation property in the duct 201. That is, by using the holder 205, it is possible to secure the ventilation in the duct 201 and to ensure the ventilation from the outlet 203.

Cold water (cooling liquid) or hot water (warming liquid) flows from upstream to downstream inside the water pipe 204. Since the water pipe 204 is arranged inside the duct main body 202, the water pipe 204 (and the liquid inside the water pipe 204) is ducted so as to suppress the temperature difference generated from the upstream end to the downstream end inside the duct 201. It functions to cool (cool) or heat (heat) the air in 101.

Specifically, when cooling the strawberry seedling P in a high temperature environment such as summer, cold water is passed through the water pipe 204 inside the duct 201, and air is blown through the water pipe 204 over the long direction of the duct 201. The air (cold air) blown from the device 208 is cooled or kept cold. That is, the water pipe 204 serves as a cold heat source to prevent the gas in the duct 201 from being warmed in the external environment, and the temperature distribution of the gas in the long direction of the duct 201 is maintained more uniformly. On the other hand, when the strawberry seedling P is heated in a low temperature environment such as winter, hot water is passed through the water pipe 204 inside the duct 201, and the blower 208 is connected to the water pipe 204 over the long direction of the duct 201. The air (warm air) blown from is heated or kept warm. That is, the water pipe 204 serves as a heat source to prevent the gas in the duct 201 from being cooled in the external environment, and the temperature distribution of the gas in the long direction of the duct 201 is maintained more uniformly. That is, the temperature difference between the air blown from the air outlet 203 on the upstream side of the duct 201 and the air blown from the air outlet 203 on the downstream side is suppressed.

The water pipe 204 of the present embodiment is made of a synthetic resin such as polyethylene or vinyl chloride (although not limited to this). Then, in the present embodiment, one side of the convex portion is defined to be about 1.35 times the one side of the concave portion. Further, in the present embodiment, a water pipe 204 having a concave portion having a side of about 100 mm is adopted. However, the dimensions and shape of the water pipe of the present invention can be arbitrarily changed within the technical scope of the present invention, and are appropriately selected according to the type of plant and the area of the medium.

FIG. 12 is a schematic view showing the entire system of the plant growing device 20 of the present embodiment. The plant growing device 20 has the same overall configuration as the plant growing device 10 of the first embodiment, and by effectively utilizing geothermal heat for adjusting the water temperature, cold water or hot water is generated to generate strawberry seedlings. The temperature of P can be adjusted.

Hereinafter, the effects of the plant growing device 20 and the growing assisting device 200 according to the second embodiment of the present invention will be described.

According to the plant growing device 20 and the growing assisting device 200 of the present embodiment, a water pipe 204 through which cold water or hot water passes extends along the duct 201, and the water pipe 204 lengthens the gas inside the duct body 202. The temperature of the gas blown out from the outlet 203 can be adjusted by cooling or heating in the duct direction. That is, in the plant growing device 20 and the growing auxiliary device 200 of the present embodiment, when the air (cold air or hot air) from the blower device 208 flows inside the duct 201, the water pipe 204 is a cooling source or a heat source inside the duct 201. Functions as. Further, by making the water pipe 204 a flexible pipe with a corrugated cross section, the surface area of the pipe wall of the water pipe 204 that comes into contact with gas inside the duct main body 202 is increased. As a result, heat transfer between the cooled or heated water pipe 204 and the gas inside the duct 201 is promoted, and the gas inside the duct 201 can be effectively cooled or heated. Therefore, it is suppressed that the temperature of the air discharged from the outlet 203 greatly fluctuates due to the influence of the external environment according to the distance from the blower 208. As a result, a gas having an appropriate temperature can be sprayed on each region of the plurality of strawberry seedlings P planted on the medium 22 and on the entire longitudinal direction of the medium 22. Therefore, the plant growing device 20 and the growing assisting device 200 of the present embodiment can efficiently control the temperature over the entire row of strawberry seedlings P, and grow the strawberry seedlings P in a more desirable temperature environment.

[Modification example]
The present invention is not limited to the above embodiment, and various modifications can be taken. Hereinafter, modifications of the present invention will be described. In each modification, the components having the last two digits in common among the components represented by the three digits have the same or similar characteristics unless otherwise explained, and some of the description thereof will be omitted.

(1) In the above embodiment, a spiral flexible pipe and a square wavy flexible pipe are used as the water pipe, but the present invention is not limited to the above embodiment. That is, various forms of water pipes may be adopted as long as at least the cooling liquid or the heating liquid can pass through and the temperature change of the air blown in the longitudinal direction in the duct can be suppressed. For example, the water pipe may be a resin pipe having a straight cross section or a metal pipe having no flexibility.

(2) In the above embodiment, the duct is made of a soft film, but the present invention is not limited to the above embodiment. For example, the duct may be formed of a foamable heat insulating material made of a polyurethane resin, a phenol resin, or the like in order to suppress the influence of the outside air temperature.

(3) In the plant growing device of the above embodiment, the liquid is circulated by the circulation device and the temperature is adjusted by the geothermal heat, but the present invention is not limited to the embodiment. That is, the liquid supplied from the pipe may be drained after passing through the water pipe. Further, instead of using geothermal heat, a cooled or heated liquid may be sent to the water pipe by separately providing a cooler or a heater upstream of the water pipe.

(4) In the plant growing devices 10 and 20 of the above embodiment, the plurality of strawberry seedlings P are arranged in a straight line, but the plurality of strawberry seedlings P may be randomly arranged so as to bend or refract. Even in such a case, the ducts 101, 201 and the water pipes 104, 204 can be bent or bent along the plurality of strawberry seedlings P.

(5) The growth assisting device of the present invention can be used in combination with other temperature control devices. FIG. 13 shows a plant growing device 50 of a modified example of the present invention. As shown in FIG. 13, the plant growing device 50 locally cools the strawberry seedling P in close proximity to or in contact with the medium 52 or the strawberry seedling P in addition to the growing assist device 500 (similar to the growing assist device 100). Alternatively, it is provided with a temperature control device 55 for heating. The temperature control device 55 includes one or a plurality of pipes 55a through which a liquid (for example, cold water or hot water) having a temperature lower or higher than the environmental temperature flows. The pipe 55a is a wavy flexible pipe having a quadrangular cross section. At least one side of the tube 55a having a quadrangular cross section is placed on the medium 52 at a position close to or in contact with the strawberry seedling P. In the temperature control device 55, since the tube 55a formed in a square cross section approaches or contacts the plant on the side (side surface), a relatively large proximity area or contact area to the strawberry seedling P or the medium 52 is secured, and the temperature control device 55 is simple. The strawberry seedling P can be efficiently cooled or heated with such a configuration. That is, by using the temperature adjusting device 55 in combination with the growing assisting device 500, the temperature of the strawberry seedling P can be controlled more efficiently.

(6) The plant growing device and / or growing assisting device of the present invention can be configured by combining the features of each of the above examples and modifications, or by changing the number and position of its constituent elements. For example, FIGS. 14 to 17 show a plant growing device 60 and a growing assisting device 600 of a modified example of the present invention.

The growth assisting device 600 is installed on the container 61 and the medium 62 so that each strawberry seedling P or the medium 22 can be locally cooled or heated. The growth assisting device 600 extends along a plurality of ducts 601 (three in this modified example) arranged along the longitudinal direction of the container 61, and along each of the ducts 601. Cold water (coolant) or cold water (coolant) or A plurality of (six) water pipes 604 through which hot water (warming liquid) passes through are provided. Specifically, the three ducts 601 of the growth assisting device 600 are supported and placed by the support rails 609 and the medium 62 on both sides of the container 61, respectively. Each duct 601 contains two water pipes 604.

Each duct 601 has a long duct body 602 through which the gas is blown, and a plurality of outlets 603 formed in the duct body 602 so as to blow the gas toward the local area of the strawberry seedling P or the medium 62. That is, the configuration of the duct 601 itself is substantially the same as that of the duct 101 of the first embodiment. The water pipe 604 is configured to cool or heat the gas inside the duct main body 602 in a long direction and adjust the temperature of the gas blown out from the outlet 603. In this modification, the water pipe 604 is a flexible elongated body having a square cross section. That is, the configuration of the water pipe 604 itself is substantially the same as that of the water pipe 201 of the second embodiment.

As shown in FIG. 16, a plurality of outlets 603 are perforated above the duct body 602 in the ducts 601 on both sides so as to mainly cool or heat the back of the leaves of the strawberry seedling P. As shown in FIGS. 16 and 17, a plurality of outlets 603 are formed in the central duct 601 on the side surface of the duct body 602 so as to mainly cool or heat the strawberry seedling P from the inside. The outlet 603 is regularly formed at the same position in the circumferential direction and at predetermined intervals over the entire longitudinal direction of the duct body 602. That is, the plant growing device 60 and the growing assisting device 600 according to the present modification apply a gas having an appropriate temperature to each local portion of the plurality of strawberry seedlings P planted in the medium 62 and the entire longitudinal direction of the medium 62. Can be sprayed.

Further, in the present plant growing device 60, two water pipes 604 are placed on the bottom wall of the duct 601 at predetermined intervals as in the temperature control device 55 of FIG. In particular, the two water pipes 604 are held at substantially constant intervals by the holder 605. The bottom surface of the central duct body 602 is in contact with the medium 62. That is, the bottom surfaces of the two water pipes 604 are in contact with the surface of the medium 62 via the thin outer wall of the duct 601. That is, since the bottom surface of the central water pipe 604 formed in a quadrangular cross section together with the bottom surface of the duct 601 is in close proximity to or in contact with the medium 62, the medium 62 is efficiently secured by ensuring a relatively large proximity area or contact area with the medium 62. It can also be cooled or heated.

The present invention is not limited to the above-described embodiments and modifications, and can be implemented in various embodiments as long as it belongs to the technical scope of the present invention.

10,20 Plant growing device 11,12 Container 12,22 Medium 13,23 Stand 100,200 Growing auxiliary device 101,201 Duct 102,202 Duct body 103,203 Outlet 104 Water pipe (spiral pipe)
204 Water pipe (flexible pipe with square wave)
205 Cage 107, 207 Conduit 108, 208 Blower 109,209 Support rail 111,211 Water supply device 112, 212 Piping 113, 213 Circulation pump P Strawberry seedling (plant)

Claims (10)

It is a growth assisting device that cools or heats the plant by blowing gas locally on the plant.
A long duct body in which a gas is blown inside by a blower, and a duct having one or a plurality of outlets formed in the duct body so as to blow the gas toward a local part of the plant.
A water pipe extending along the duct and through which a cooling liquid or a heating liquid flows is provided.
The water pipe is characterized in that it is configured to cool or heat the gas inside the duct body in a long direction and adjust the temperature of the gas blown out from the outlet. Auxiliary device. The growth assisting device according to claim 1, wherein the water pipe is spirally wound around the inner circumference or the outer circumference of the duct body. The growth assisting device according to claim 1, wherein the water pipe is a long body arranged inside the duct main body and formed in a rectangular cross section. The growth assisting device according to claim 3, wherein the water pipe is a wavy flexible pipe. The growth assisting device according to any one of claims 1 to 4, wherein the duct and the water pipe have flexibility. The growth assisting device according to any one of claims 1 to 5, wherein the duct is made of a soft film. The growth assisting device according to any one of claims 1 to 5, wherein the duct is made of a foamable heat insulating material. It is a plant growing device that grows a plurality of plants by blowing gas locally on the plurality of plants planted in the medium to cool or heat the plurality of plants.
A medium in which the plurality of plants are planted or in which the plurality of plants are planted,
A long duct body that is arranged along the local areas of the plurality of plants and in which gas is blown inside by a blower, and formed on the duct body so as to blow the gas toward the local areas of the plurality of plants. A duct with multiple outlets
A water pipe extending along the duct and through which a cooling liquid or a heating liquid flows is provided.
The water pipe is a plant characterized in that the gas inside the duct body is cooled or heated in a long direction to regulate the temperature of the gas blown out from the outlet. Breeding device. The plant growing device according to claim 8, wherein the water pipe is spirally wound around the inner circumference or the outer circumference of the duct body. The plant growing device according to claim 8, wherein the water pipe is a long body arranged inside the duct main body and formed in a rectangular cross section.

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