KR20100103402A - Cultivation apparatus - Google Patents

Abstract

PURPOSE: A cultivation apparatus which is easy to manufacture and assemble is provided to improve heat transfer efficiency and to prevent corrosion by medium. CONSTITUTION: A cultivation apparatus comprises: a cultivation tank(1) for inputting medium(2) having a lower wall(3) and side wall(4); and a heat exchanger(10) of tube shape, which heats or cools the medium. The cultivation apparatus is formed of metal positioning plate(20). The cultivation apparatus further comprises: a maintaining part(25) having a concave part by mounting the heat exchanger; a water impermeable sheet(27) for receiving medium inside the cultivation tank; and a hole(30) with a plurality of through holes(32).

Description

Cultivation device {CULTIVATION APPARATUS}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cultivation apparatus for growing plants, such as vegetables and fruits, used in house cultivation and the like, and more particularly, to a cultivation apparatus having a heat exchanger for heating or cooling a medium for growing roots of plants. .

Conventionally, as this kind of cultivation apparatus, the technique of Unexamined-Japanese-Patent No. 2003-71 (patent document 1) is known, for example.

This cultivation apparatus is installed in a house or the like, and has a bottom wall 101 and a side wall 102, and a cultivation tank into which a medium 103 for growing a plant root can be placed inside. The heat exchanger 104 which consists of a tubular heat pipe which is equipped with the 100, and which is embedded in the medium 103 and which heats or cools the medium 103 is provided. The cultivation tank 100 is formed integrally with a heat insulating material such as foamed plastic, and a non-water-permeable sheet 105 is provided on the inner side of the cultivation tank 100, and a medium (on the water-permeable sheet 105) 103 is housed, and a watering pipe 106 for spraying water or liquid fertilizer is placed on the medium 103.

When the outside air temperature is relatively low, such as winter season, hot water or the like is supplied to the heat exchanger 104 to warm the medium 103. When the outside air temperature is relatively high, such as the summer season, cold water is supplied to the heat exchanger 104. By cooling the medium 103, the temperature of the medium 103 is always maintained appropriately, the growing environment of the plant is maintained satisfactorily, and plants such as vegetables can be stably grown regardless of the seasons in winter and summer. To make it work.

Japanese Patent Laid-Open No. 2003-71

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By the way, in the said conventional cultivation apparatus, since the heat exchanger 104 is embedded directly in the medium 103, since the heat exchanger 104 is tubular, generation | occurrence | production of heat concentrates in the center of the medium 103, and dispersibility is carried out. It was bad and there was a problem that heat was not uniformly transferred into the medium 103. In addition, since the heat exchanger 104 is in direct contact with the medium 103, it is easy to manufacture and assemble, but there is also a problem that the solvent resistance is poor, such as being easy to corrode.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is possible to transfer heat from the heat exchanger to the medium as uniformly as possible to improve the heat transfer efficiency, while suppressing the influence of corrosion by the medium as much as possible, It is an object of the present invention to provide a cultivation apparatus that can facilitate assembly.

The cultivation apparatus of the present invention for achieving this object is a cultivation device having a tubular heat exchanger that warms or cools the medium while having a cultivation tank having a bottom wall and sidewalls and a medium for growing the root of the plant inside. In the apparatus, a metal mounting plate on which the medium is to be placed is provided, and the heat exchanger is placed in contact with the rear of the mounting plate so as to transfer heat to the mounting plate.

As a result, when the outside air temperature is relatively low, such as in winter, the medium is warmed by supplying hot water or the like to the heat exchanger. When the outside air temperature is high, such as in the summer, the medium is cooled by supplying cold water or the like to the heat exchanger. Keep it right at all times. In this case, since the heat exchanger is in contact with the metal placement plate and the medium is placed on the placement plate, the heat of the heat exchanger is transferred to the placement plate and is transferred from the bottom of the medium to the medium through the placement plate. Therefore, the mounting plate has a planar shape, a large heat dissipation area, and is interposed on the lower surface of the medium, so that heat from the heat exchanger is uniformly transferred to the medium, thereby improving heat transfer efficiency. As a result, the growing environment of the plant can be maintained satisfactorily, and plants, such as vegetables, can be cultivated stably regardless of the winter season and the summer season.

In addition, since the heat exchanger is disposed on the back side of the mounting plate, the heat exchanger is isolated from the medium, whereby the influence of corrosion and the like caused by the medium is suppressed and the solvent resistance is improved. Moreover, since a mounting plate is provided and a heat exchanger is arrange | positioned at the back surface, manufacture and assembly can also be made easy.

In this case, the heat exchanger is constituted by a circular appearance having a circular cross section filled with the heat exchange medium and a heat transfer tube that vaporizes or liquefies the heat exchange medium, and the external heat exchanger is brought into contact with the placement plate. It is effective to form the contact part of the said mounting board which the external appearance of this heat exchanger makes contact with the circular arc surface along the outer periphery of this external appearance. Since the contact area is enlarged as compared with the case where the heat exchanger only contacts the mounting plate, the heat transfer efficiency can be improved by that amount.

More specifically, the cultivation apparatus of the present invention is a cultivation apparatus having a tubular heat exchanger which has a bottom wall and a side wall and which has a culture tank capable of putting a medium for growing the roots of plants inside, and which heats or cools the medium. The apparatus is provided with a metal mounting plate on which the medium is placed, and the heat exchanger is placed in contact with the rear of the mounting plate so that heat can be transferred to the mounting plate, and the supporting plate is supported on the bottom wall. Forming a concave holding portion for embedding and holding the heat exchanger, and laying a non-permeable sheet receiving the medium on the inner surface of the culture tank including the surface of the mounting plate, and closes the opening of the culture tank to the space between the medium The medium is formed by installing a lid having a plurality of through holes for forming a space and penetrating the plant. Has a spray pipe having a plurality of holes for spraying water on the top of the medium is in one configuration.

In this way, the plant is rooted in the medium and grows to the outside through the through hole in the lid. Water is fed to the medium from the spray pipe. When the external temperature is relatively low, such as winter season, hot water is supplied to the heat exchanger to warm the medium. When the external temperature is high, such as summer, the medium is cooled by supplying cold water or the like to the heat exchanger. Keep it right at all times. In this case, since the heat exchanger is in contact with the metal placement plate, and the medium is placed on the placement plate, the heat of the heat exchanger is transferred to the placement plate and is transferred from the bottom of the medium to the medium through the placement plate. Therefore, the mounting plate has a planar shape, and the heat dissipation area is also increased, and furthermore, since it is interposed on the lower surface of the medium, heat from the heat exchanger is uniformly transferred to the medium, thereby improving heat transfer efficiency. Moreover, since there is a lid, it is excellent in heat retention. As a result, the growing environment of the plant can be maintained satisfactorily, and plants, such as vegetables, can be cultivated stably regardless of the winter season and the summer season.

In addition, since the heat exchanger is disposed on the back side of the placement plate and the placement plate is covered with a non-permeable sheet, the heat exchanger is waterproof and isolated from the medium, whereby the influence of corrosion and the like caused by the medium is reliably suppressed, It is greatly improved. In addition, since the placement plate is installed by embedding the heat exchanger in the recess of the holding portion provided on the bottom wall, in this respect, the isolation of the heat exchanger is good, the support of the placement plate is stable, and the structure is simple. It can also be facilitated.

Also in this case, the heat exchanger is constituted with a circular appearance having a circular cross section filled with the heat exchange medium and a heat transfer tube which vaporizes or liquefies the heat exchange medium by installing the inside of the mounting plate. It is effective to form the contact part of the said mounting board which the external plate of the heat exchanger contacts by the contact on the circular arc surface along the outer periphery of this external appearance. Since the contact area is enlarged as compared with the case where the heat exchanger only contacts the mounting plate, the heat transfer efficiency can be improved by that amount.

And as needed, it is the structure which integrated the said holding | maintenance part in the bottom wall. Since it can be formed integrally with a bottom wall, manufacture and assembly are easily performed by that much.

Further, if necessary, the holding portion is formed into a plate shape that can be separated from the general portion of the bottom wall, constitutes a heat exchange panel made of the placement plate, the heat exchanger, and the holding portion, and a panel fitting recess to which the heat exchange panel fits the bottom wall. It is formed. Since the heat exchange panel can be prepared in advance and assembled into the panel fitting recess of the cultivation tank, the assembly can be made very easily.

Moreover, the said medium is formed in plate shape as needed, and the medium fitting recessed part which this plate-shaped medium fits into the said bottom wall was formed. Since the medium is concentrated in a plate shape and assembled into the medium fitting recess of the cultivation tank, the assembly can be performed very easily.

Moreover, it is the structure which provided the support end part which supports the said watering pipe in the said side wall. Since the sprinkling pipe is supported at the supporting end of the side wall, the mounting is easy and the support is stabilized, and the whole can be sprayed on the medium.

Moreover, the structure which provided the mounting recessed part in which the external heat exchanger different from the said heat exchanger is mounted on the upper surface of the said lid | cover is formed. Therefore, the external heat exchanger is placed on the mounting recess of the lid, and when the external temperature is low, for example, in winter, the external heat exchanger is supplied with hot water or the like to warm the surroundings of the plant, and the external temperature such as the summer season. When is high, cold water or the like can be supplied to the external heat exchanger to cool the surroundings of the plant. Therefore, not only the medium of the plant but also the outside temperature of the plant can be maintained appropriately, and the cultivation environment of the plant can be improved by that much. In addition, the external heat exchanger can be removed from the mounting recess of the lid. Since the external heat exchanger is only required to be placed on or removed from the mounting recess, the removal and removal of the external heat exchanger is made easy and the versatility is rich.

According to the cultivation apparatus of the present invention, when the external temperature is relatively low, such as in winter, the medium is heated by supplying hot water or the like to the heat exchanger, and when the external temperature is high, such as in summer, the medium is cooled by supplying cold water or the like to the heat exchanger. Thus, it is possible to keep the temperature of the medium appropriately at all times. In this case, since the heat exchanger is in contact with the metal placement plate, and the medium is placed on the placement plate, the heat of the heat exchanger is transferred to the placement plate and is transferred to the medium from below the medium through the placement plate. Since the plate has a planar shape and a large heat dissipation area, and is interposed on the lower surface of the medium, heat from the heat exchanger can be uniformly transferred to the medium to improve the heat transfer efficiency. As a result, the growing environment of the plant can be maintained satisfactorily, and plants, such as vegetables, can be cultivated stably regardless of the winter season and the summer season.

In addition, since the heat exchanger is disposed on the back side of the mounting plate, the heat exchanger is isolated from the medium, whereby the influence of corrosion and the like caused by the medium can be suppressed, thereby improving the durability. Moreover, since a mounting plate is provided and a heat exchanger is arrange | positioned at the back surface, manufacture and assembly can also be made easy.

1 is a cross-sectional view showing a cultivation apparatus according to a first embodiment of the present invention.
It is an exploded perspective view which shows the cultivation apparatus which concerns on the 1st Embodiment of this invention.
It is a figure which shows the structure of the heat exchanger of the cultivation apparatus which concerns on embodiment of this invention.
It is a figure which shows the example of installation of the cultivation apparatus which concerns on embodiment of this invention.
It is sectional drawing which shows the cultivation apparatus which concerns on 2nd Embodiment of this invention.
It is an exploded perspective view which shows the cultivation apparatus which concerns on 2nd Embodiment of this invention.
It is a figure which shows an example of the conventional cultivation apparatus.

EMBODIMENT OF THE INVENTION Hereinafter, according to an accompanying drawing, the cultivation apparatus which concerns on embodiment of this invention is demonstrated in detail. The cultivation apparatus according to the embodiment of the present invention is used in house cultivation (FIG. 4) and the like, and for example, plants such as tomatoes, paprika, bitter gourd, cucumbers, eggplants, strawberries, and so on, including various vegetables and fruits are grown. It is to let.

In FIG. 1 and FIG. 2, the cultivation apparatus S which concerns on 1st Embodiment of this invention is shown. The cultivation apparatus S which concerns on this 1st Embodiment has the cultivation tank 1 which can accommodate the medium 2 which grows the root of a plant inside, and the pipe which heats or cools the medium 2 at the inside. The heat exchanger 10 of the shape is provided.

In detail, the cultivation tank 1 is integrally molded with heat insulating materials, such as foamed styrol, has the bottom wall 3 and the side wall 4, and forms the opening 5 on it, and is formed long and thin.

As shown in FIG. 3, the heat exchanger 10 is a heat transfer tube which vaporizes or liquefies the heat exchange medium W in the outer appearance 11 and the outer appearance 11 in which the cross section which filled the heat exchange medium W was circular ( 12) Equipped. The heat exchange medium W to be filled in the external appearance 11 may be any one that facilitates vaporization or liquefaction, and water can be used. Here, the inside of the exterior 11 can be evaporated at low temperature by lowering the boiling point of water while making the inside of the exterior 11 depressurize rather than normal pressure. The heat transfer tube 12 can supply heat to the heat exchange medium (W). In this case, the heat source may be a fluid capable of supplying a desired temperature to the heat exchange medium W, and hot water or steam may be used. As a result, the heat exchanger 10 exerts a heat dissipation effect. In addition, the heat transfer tube 12 can absorb heat from the heat exchange medium (W). In this case, the heat source may be a fluid capable of supplying a desired temperature to the heat exchange medium W, and cold water may be used. Thereby, the heat exchanger 10 has an endothermic effect.

Moreover, this cultivation apparatus S is comprised equipped with metal mounting boards 20, such as aluminum in which the medium 2 is mounted, and the heat exchanger 10 can transfer heat to this mounting board 20, It is arrange | positioned in contact with the back of the mounting plate 20. The placement plate 20 is provided at the center of the plate-shaped plate body 21 and the plate body 21 by welding or the like along the longitudinal direction to contact the contact portion 22 that contacts the outer surface 11 of the heat exchanger body 10. The heat transfer body 23 to be formed is provided and comprised. The contact part 22 of the mounting plate 20 to which the external appearance 11 of the heat exchanger 10 contacts is formed in the arc surface. That is, the heat transfer body 23 is formed with the semi-circular arc-shaped part which has the circular arc surface along the outer periphery of the exterior 11, and the flat part joined to the plate body 21. As shown in FIG.

And the holding part which has the recessed part 24 which supports the mounting board 20 in the bottom wall 3 of the cultivation tank 1, and at the center thereof, burying and holding the heat exchanger 10 along the longitudinal direction. 25 is integrally formed. The contact portion 22 of the heat transfer body 23 of the mounting plate 20 is also buried in the recess 24. Since the holding | maintenance part 25 was formed integrally with the bottom wall 3, manufacture and assembly are easily performed by that much.

In addition, the medium 2 is formed in a plate shape, for example, porous urethane or cotton. The bottom wall 3 is provided with a medium fitting recess 26 to which the plate-shaped medium 2 fits. The bottom face 26a of the medium fitting recess 26 is formed of the holding part 25, and the mounting plate 20 is fitted to the bottom face 26a. Since the medium 2 is concentrated in a plate shape and assembled into the medium fitting recess 26 of the cultivation tank 1, assembly can be performed very easily.

In addition, the non-permeable sheet 27 which receives the medium 2 is attached to the inner surface of the culture tank 1 including the surface of the mounting plate 20. In the upper part of the side wall 4 of the cultivation tank 1, the groove | channel 28 into which the side edge part of the non-permeable sheet | seat 27 is inserted is formed, and the pressing member 29 is inserted in this groove | channel 28, and it is impermeable The sheet 27 is being fixed.

And furthermore, the lid 30 which closes the opening 5 of the cultivation tank 1 is provided. The lid 30 is formed of a heat insulating material such as foamed styrole such as the cultivation tank 1 to form a space 31 between the medium 2 and a plurality of through holes 32 for penetrating and holding the plant. Have

Moreover, the mounting recessed part 34 in which the external heat exchanger 33 can be mounted is formed in the upper surface of the lid 30 and along the longitudinal direction separately from the heat exchanger 10.

In addition, a pair of watering pipes 35 having a plurality of holes for spraying water on the medium 2 is provided above the medium 2. On the side wall 4 of the cultivation tank 1, the support end part 36 which supports the sprinkling pipe 35 is formed. The watering pipe 35 is provided at this support end 36. Since the sprinkling pipe 35 is supported by the support end portion 36 of the side wall 4, the mounting is easy, the support is stabilized, and the whole of the medium 2 can be sprinkled.

Therefore, when growing a plant using the cultivation apparatus S which concerns on this embodiment, it carries out as follows, for example. 4, the house H which grows a plant using the cultivation apparatus S which concerns on this embodiment is shown. The house H is constructed by covering the translucent resin sheet 41 on the frame 40 which forms the cultivation space, and is provided with a curtain that can block light when the house H is installed and closed to be closed along the ceiling side and side portions ( 42). The cultivation apparatus S which concerns on this embodiment is provided in the space | interval in the house H in multiple rows and at appropriate intervals. In addition, a wire 43 for hanging the external heat exchanger 33 is laid on the ceiling side of the curtain 41.

In this house (H), when planting, the seedlings of the plant rooted in the vegetation mass 44 are inserted in advance from the through hole 32 of the lid 30, and the plant is grown (1). ) In the medium (2). Then, water or liquid fertilizer is sprayed from the water pipe 35, and the heat exchanger 10 is operated in a timely manner. As a result, the plant is rooted in the medium 2 and grows to the outside through the through hole 32 of the lid 30.

In this cultivation, for example, when the outside temperature is relatively low, such as in winter, the medium 2 is heated by supplying hot water or the like to the heat exchanger 10, and when the outside temperature is relatively high, such as in summer, the heat exchanger 10 ) Is supplied with cold water to cool the medium (2) so that the temperature of the medium (2) is always maintained appropriately.

In this case, since the heat exchanger 10 is in contact with the metal placement plate 20 at the contact portion 22 of the heat transfer body 23, and the medium 2 is placed on the placement plate 20, the heat exchanger ( The heat of 10) is transferred to the base plate 20 and through the base plate 20 to the medium 2 at the bottom of the medium 2. Therefore, the mounting plate 20 has a planar shape, has a large heat dissipation area, and is interposed on the lower surface of the medium 2, so that the heat from the heat exchanger 10 is uniformly transferred to the medium 2 to transfer heat. The efficiency is improved. In particular, since the contact portion 22 of the mounting plate 20 to which the outer surface 11 of the heat exchanger 10 is in contact is formed on an arc surface along the outer circumference of the outer surface 11, the heat exchanger 10 is merely placed on the mounting plate. Since the contact area is enlarged as compared with the case where it contacts with (20), heat transfer efficiency can be improved by that much. As a result, the growing environment of the plant can be maintained satisfactorily, and plants, such as vegetables, can be cultivated stably regardless of the winter season and the summer season.

At this time, when the outside temperature is relatively low such as winter season, hot water is supplied to the external heat exchanger 33 to warm the surroundings of the plant. In addition, when relatively outside air temperature is high, such as in summer, cold water etc. can be supplied to the external heat exchanger 33, and it can cool around a plant. In addition, the external heat exchanger 33 is separated from the mounting recess 34 of the lid 30, suspended on the wire 43 in the house H, and cold water or the like is supplied to the external heat exchanger 33 in this state. I can cool the whole house (H). Therefore, not only the plant medium 2 but also the outside temperature of the plant can be maintained appropriately, and the cultivation environment of the plant can be improved by that much.

In addition, since the heat exchanger 10 is disposed on the back side of the placement plate 20 and the placement plate 20 is covered by the water-permeable sheet 27, it is waterproof and isolated from the medium 2, and therefore, Corrosion and other effects due to the medium (2) are surely suppressed, and the solvent resistance is greatly improved. Moreover, since the heat exchanger 10 is buried in the recessed part 24 of the holding | maintenance part 25 formed in the bottom wall 3, and the mounting board 20 is installed, also in this point, the isolation | separation property of the heat exchanger 10 is In addition, since the support of the mounting plate 20 is stabilized and the structure is simple, the manufacture and assembly can be facilitated.

In FIG. 5 and FIG. 6, the cultivation apparatus S which concerns on 2nd Embodiment of this invention is shown. Although the cultivation apparatus S which concerns on this 2nd Embodiment is comprised substantially similar to the cultivation apparatus S which concerns on 1st Embodiment, unlike the cultivation apparatus S which concerns on 1st Embodiment, it heat exchanger The holding | maintenance part 25 which embeds and hold | maintains 10 is formed in plate shape which can be removed from the general part of the bottom wall 3. As shown in FIG. And in this cultivation apparatus S, the heat exchange panel P which consists of the mounting board 20, the heat exchanger 10, and the holding | maintenance part 25 is comprised, and this heat exchange panel P is provided in the bottom wall 3. The panel fitting recess 45 to be fitted is formed. Since the heat exchange panel P is made in advance and it can be assembled only by inserting it into the panel fitting recess 45 of the cultivation tank 1, assembling becomes very easy. Other actions and effects are as described above.

In addition, in the said embodiment, although the medium 2 was made into plate shape, it is not necessarily limited to this, It may be gravel, soil, etc., and even if it changes suitably, it does not interfere. In addition, in the said embodiment, although the cultivation apparatus S was installed in the ground in the house H, it is not necessarily limited to this, It supports by the support frame in the position higher than the ground, and it is what is called high snow cultivation. You can do it, and it can be changed properly.

S planting device
1 plantation
2 badge
3 bottom wall
4 sidewalls
5 opening
10 heat exchanger
W heat exchange medium
11 appearance
12 heat transfer tube
20 board
21 edition
22 contacts
23 heating elements
24 elements (concave)
25 holding parts
26 medium fitting main parts
27 impervious sheets
30 lids
31 spaces
32 through hole
33 External Heat Exchanger
34 wit
35 water pipe
36 Support End
H house
40 frames
41 resin sheet
42 curtains
43 wire
44 Vegetation Mass
P heat exchanger panel
45 panel fitting fittings

Claims (9)

A cultivation apparatus having a tubular heat exchanger for heating or cooling a medium while having a cultivation tank having a bottom wall and a side wall and containing a medium for growing a plant root therein,
And a metal placing plate on which the medium is placed, and the heat exchanger is placed in contact with a rear side of the placing plate so that heat can be transferred to the placing plate. 2. The heat exchanger according to claim 1, wherein the heat exchanger is constituted by a circular cross section filled with a heat exchange medium and a heat transfer tube installed in the external appearance and vaporizing or liquefying the heat exchange medium. The cultivation apparatus which contacted the mounting board and provided the contact part of the said mounting board which the external appearance of this heat exchanger contacts on the arc surface along the outer periphery of this external appearance. A cultivation apparatus having a tubular heat exchanger for heating or cooling a medium while having a cultivation tank having a bottom wall and a side wall and containing a medium for growing a plant root therein,
The heat exchanger is arranged in contact with the back of the placement plate so that heat can be transferred to the placement plate, and the heat exchanger is placed on the back wall to support the placement plate. Forming a holding part having a recess for holding
A plurality of penetrations are provided on the inner side of the culture tank including the surface of the placement plate, and a non-permeable sheet receiving the culture medium is formed to block the opening of the culture tank and form a space between the culture tank and penetrate and maintain the plant. Install the lid with the ball and
And a watering pipe having a plurality of holes for spraying water on the medium above the medium. 4. The heat exchanger according to claim 3, wherein the heat exchanger is constituted by an external appearance having a circular cross section filled with a heat exchange medium and a heat transfer tube provided in the external appearance to vaporize or liquefy the heat exchange medium. The cultivation apparatus which contacted the mounting board and formed the contact part of the said mounting board which the external appearance of this heat exchanger contacts on the arc surface along the outer periphery of this external appearance. The cultivation apparatus according to claim 3 or 4, wherein the holding portion is formed integrally with the bottom wall. The heat exchange panel according to claim 3 or 4, wherein the holding portion is formed into a plate shape that can be separated from the general portion of the bottom wall, and the heat exchange panel including the placement plate, the heat exchanger, and the holding portion is fitted, and the heat exchange panel is fitted to the bottom wall. A cultivation apparatus characterized by forming a panel fitting recess. The culture apparatus according to any one of claims 3 to 6, wherein the medium is formed in a plate shape, and a medium fitting recess for fitting the medium in the plate shape is formed on the bottom wall. The cultivation apparatus as described in any one of Claims 3-7 in which the support end part which supports the said watering pipe is provided in the said side wall. The cultivation apparatus of any one of Claims 3-8 in which the mounting recessed part in which the external heat exchanger separate from the said heat exchanger was mounted was formed in the upper surface of the said lid | cover.

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