KR20070049089A - Accelerated forcing germination system and accelerated forcing cultivation system - Google Patents

Abstract

By eliminating the poor workability of carrying in and out and installing due to night-cooling, cold-heating, and blowing, etc., improving other workability, and achieving strict tolerances in setting temperature and setting time. In addition, a super-tactile cultivation system is provided in which the entire system is compact, thereby suppressing energy loss and consequently performing temperature management efficiently and economically. A plurality of seedling vessels containing cultured soil in which each seedling is divided into a plurality of rows, a support for mounting the seedlings, and a first heat pipe provided in proximity to or in the cultured soil of the plurality of seedling intermediates. And a second heat pipe provided on the support, wherein the first heat pipe and the second heat pipe each have a coaxial inner tube and an outer tube disposed substantially horizontally, and the space between the outer tube and the inner tube is vacuumed. It is made by filling with the working liquid, and the second heat pipe is characterized in that it is accommodated coaxially in a third pipe having a plurality of openings in the pipe wall.

Description

Accelerated forcing germination system and accelerated forcing cultivation system

1 is an explanatory diagram of a super-tactile cultivation system according to Examples 1 to 5.

2 is an explanatory diagram of a super-tactile germination system according to a sixth embodiment.

3 is an explanatory view of a super-tactile germination system according to a seventh embodiment.

<Explanation of symbols for the main parts of the drawings>

1, 11: seedling container

2: culture soil

3: cultivated plant (strawberry)

3a: crown area

4: exhaust pipe

5, 51: 1st heat pipe

5a, 51a: inner tube

5b, 51b: appearance

6: second heat pipe

6a: inner tube

6b: Appearance

6c: Third Hall

8, 81: 1st heat insulation sheet

8b, 81b: end of first heat insulating sheet

8c: end of first heat insulating sheet (when folded)

9, 91: support

17: weight

18: wheel

19, 191

89: second thermal insulation sheet

51: germination shelf

53: palette

61: heat pipe

63: Piping Spraying Mist

65: LED light source

69: doorway

The present invention relates to a super-tact cultivation system and super-tact germination system of cultivated plants. In particular, it is possible to efficiently control multi-germination and multiple harvests throughout the year by locally controlling temperature and temperature for seasonal cultivated plants such as strawberries. It relates to a super-tactile cultivation system and a super-tactile germination system that make it possible.

The cultivated plants were originally seasonal plants, but the growth of greenhouses and plastic houses made it possible to grow and harvest all year round.

In general, however, in the greenhouse, most of the energy put into the temperature control is dissipated into the surrounding space, and a large amount of energy is wasted. On the other hand, the temperature control is inevitably insufficient in the vinyl house.

Heat pipes are mainly used for these problems.

By laying the heat pipes, it is possible to locally control the temperature and the temperature of the vicinity of the plant and not to waste a lot of energy due to dissipation.

Conventionally, as the heat pipe, a single pipe type that uses a thermal conductivity to control the temperature of air or soil around a pipe wall by forcibly circulating a heat medium (hot water or cold water) at one end of a pipe, is used along the longitudinal direction of the pipe. Temperature gradients occurred, and it was difficult to uniformly adjust the temperature / temperature.

Therefore, in recent years, a double tube consisting of an inner tube and an outer tube is provided, the working fluid is enclosed after releasing air into the gap between the inner tube and the outer tube, and the heat medium is circulated forcibly in the inner tube, so that A double pipe is being used to control the temperature / temperature of the environment by radiating far-infrared radiation from the outer wall.

Compared with the single tube type, the double tube type has a uniform temperature along the length of the tube and can efficiently control only the vicinity of the tube.

For example, Japanese Unexamined Patent Publication No. 2003-000071 discloses that in house cultivation, a pipe-type heat pipe is embedded in the culture soil of the seedling container, and heat sterilization of the culture soil is circulated in advance by circulating a high temperature heat medium in advance. Techniques for making adjustments are disclosed.

However, especially in the growth of cultivated plants such as strawberries, delicate temperature control is required, and for example, seedlings are cooled before the main plant (cooling), planted in the culture soil, and then at least the "crown" of the seedlings. It is necessary to blow cold air at least to fruit in order to accelerate the differentiation of flower buds by cold-heating and to improve the sugar content after fruiting.

In particular, in the case of palpable multi-cultivation through long-term varieties or quarterly varieties, the workability which is extensive in carrying in / out / installation accompanied with cold / cold air / blowing requires bad work. Due to the tight tolerances of temperature and set time, it is difficult to economically perform temperature management with good workability.

An object of the present invention made to solve problems in super-tactile cultivation and germination, such as through the annual tactile multi-cultivation, is a bad workability of import and export / installation accompanied with cold / cold / cold / blowing, etc. Can be omitted, improves the workability of operations other than cold / cold air / blowing, realizes tight tolerances of set temperature and set time, and suppresses energy loss by making the whole system compact. It is to provide a super-tact cultivation system and a super-tact germination system that can perform temperature control workably and economically.

In order to achieve the above object, the super-tactile cultivation system according to claim 1 of the present invention comprises a plurality of seedling containers containing cultured soil, each seedling is planted divided into a plurality of rows, a support for mounting the seedling container, the plurality of A first heat pipe installed adjacent to or in contact with the culture soil in the middle of the two seedling rows and a second heat pipe provided on the support,

Each of the first heat pipe and the second heat pipe has a coaxial inner tube and an outer tube disposed substantially horizontally, and after vacuuming the space between the outer tube and the inner tube, the working fluid is filled, and the When a thermal medium (water of constant temperature) is forcibly sent from one end to the other end, infrared radiation is absorbed or absorbed from the outer surface of the exterior, and the first heat pipe controls the temperature of the base of the seedling, and the second heat pipe Is also coaxially accommodated in a third tube having a plurality of openings in the tube wall, and when the air is forcedly sent from one end to the other end in the space between the exterior and the third tube, Air is emitted from the opening of the tube wall of the third tube to adjust the temperature around the seedling.

Moreover, as shown in claim 2, two said seedling containers are mounted on one said support object, the said support stand is movably mounted on a fixed object, and the several row | line | column which consists of a plurality of said fixed paths is a passageway, respectively. It is arranged while leaving a space corresponding to, characterized in that the passage is formed by moving the support to one side.

In addition, as shown in claim 3, it is located between the seedling container and the support in contact with the support, and covered with a space between the supports, which is adjacent to the support object adjacent to the height of the support, and forms an operator passage. And a second insulating sheet which is spaced apart from each other above the seedling container and a first insulating sheet which is foldable at an end thereof, and wherein the first insulating sheet and the second insulating sheet It is overlapped at the all edge part of several rows, and the inside is sealed.

In addition, as shown in claim 4, immediately before planting the plurality of seedlings, a constant high temperature water is sent to the inner tube of the first heat pipe, and the culture soil is sterilized at high temperature by heating according to the emitted far infrared rays. do.

In addition, as shown in claim 5, the plurality of seedlings are strawberry seedlings, the crown part of the seedling strawberry seedlings of the seedlings, and the temperature control radiated from the opening of the third tube covering the second heat pipe after planting. (Iii) the procedure corresponding to night cooling is performed by matching the air to strawberry seedlings, and then the far-infrared rays radiated from the first heat pipe in the seedlings are cold-heated to promote the differentiation of flower buds by cold-heating the crown part of the strawberry seedlings. The seedlings are planted in the culture soil, and then, during the fruiting, the heated air radiated from the opening of the third tube covering the second heat pipe increases the sugar content of the fruit in accordance with the fruit of the strawberry, It is characterized by suppressing softening of the epidermis and the flesh.

In order to achieve the above object, the super-tactile germination system according to claim 6 of the present invention includes a pipe for spraying a mist consisting of negative charge water on a wall surface and a heat pipe in a dark room surrounded by a ceiling, a wall, and a floor. On the ceiling, LED light sources are installed on the ceiling respectively. The heat pipe has a coaxial inner tube and an outer tube disposed substantially horizontally, and vacuums the space between the outer tube and the inner tube, and is filled with a working liquid, and the heat medium is formed from one end of the inner tube toward the other end thereof. When a certain temperature of water) is forcibly sent, infrared rays are radiated or absorbed from the outer surface of the exterior, the seeds are pre-soaked in negatively charged water, the seeds are sown in a pallet, and the pallet is infiltrated with negatively charged water. After covering with the pallet, the pallet is brought into the dark room and placed in a multi-stage germination rack disposed in the dark room, and a pipe for spraying the mist consisting of the heat pipe and the negative charged water is operated to control temperature and humidity in the dark room. Characterized in that.

In addition, as shown in claim 7, two germination shelves are mounted on one support, the support is further mounted on a fixing stand provided in the dark room, and a plurality of the fixing bars made of each of the plurality of fixing bars are provided. The heat is arranged while leaving a space corresponding to the passage, and when the support is moved by pushing to one side, characterized in that the passage is formed.

In addition, as shown in claim 8, the space between the support, which is located between the germination shelf and the support and is adjacent to the support object adjacent to the height of the support, in contact with the support, and forms an operator passage. The insulating sheet which can be covered and can be folded at an end is provided, and it is overlapped with the said wall surface in the whole end of the several rows of the said holding | maintenance, and it is characterized by sealing the inside.

In addition, as shown in claim 9, immediately before planting the plurality of seedlings, hot water of constant temperature is sent to the heat pipe inner tube, and the pallet is hot sterilized by heating according to the emitted far infrared rays.

According to claim 1 of the present invention, since the first heat pipe is disposed close to or in contact with the culture soil, the second heat pipe is disposed on the support object, and both pipes are tubular, so It is possible to provide a super-tactile cultivation system that independently performs temperature control of the surface area and temperature control of the entire surface of the cultured plant, independently and economically, and omits the import / export / installation work of the seedling container with poor workability. .

In addition, according to claim 2 of the present invention, the seedling container is mounted on the support object installed to be movable to the fixed object, so that only necessary passages can be opened sequentially, so that work on the cultivated plants in the seedling container can be performed. It is possible to provide a super-acting cultivation system that is compact and works well.

According to claim 3 of the present invention, since the first heat insulating sheet bath and the second protective sheet form a closed space for accommodating all seedling containers as a whole, temperature control may be performed within this limited closed space, and energy loss is achieved. This can provide a low super-tactile cultivation system.

Moreover, since the end part of the 1st protective sheet which covers a support stand for every support stand can be folded | folded, when moving a support stand and forming a passage | path, you may only fold the legend part to cover the passageway and to adjoin the support stand.

In addition, according to claim 4 of the present invention, it is possible to provide a super-tactile cultivation system capable of disinfecting the cultured soil without requiring replacement of the cultured soil and / or spraying of the disinfectant.

Further, according to claim 5 of the present invention, super-ultimate cultivation of strawberries that can automatically carry out operations such as cold cooling of the seedlings, cold heating of the crown portion, and cooling of the fruit portion each time without carrying the seedling container or the like. A system can be provided.

According to claim 6 of the present invention, the heat pipe and the pipe for spraying the mist is installed on the wall or ceiling of the dark room, so that the temperature and humidity of the pallet located in the germination shelf disposed in the dark room can be precisely adjusted, Since negatively charged water is used as the water for the index and the mist, it is possible to provide a high efficiency super-tact germination system.

In addition, according to claim 7 of the present invention, since the germination shelf is mounted on the support object installed to be movable on the fixed object, only necessary passages can be opened sequentially to perform operations on the germinating plants in the germination shelf, It is possible to provide a super-acting germination system that is compact and worksable.

Further, according to claim 8 of the present invention, since the bath of the first thermal insulation sheet forms a closed space for accommodating all the germination shelves as a whole, the temperature / humidity control is carried out in a limited closed space, especially from the ground. In addition, it is possible to provide a super early germination system with low energy loss.

In addition, since the first insulating sheet covering the support for each support can be folded at its end, when the support is moved to form a passage, it is sufficient to fold the legend part up to the adjacent support by covering the passage.

In addition, according to claim 9 of the present invention, since it is not necessary to replace the germination shelf and / or spraying of the disinfectant, it is possible to provide a super-tact germination system capable of disinfecting the germination shelf.

Hereinafter, embodiments and effects of the present invention will be described in detail with reference to the drawings.

BRIEF DESCRIPTION OF THE DRAWINGS It is explanatory drawing of the super-tactile cultivation system which concerns on Examples 1-5, and FIG. 2 and FIG. 3 are explanatory drawing of the super-tactile germination system which concerns on Example 6 and Example 7. FIG.

<Example 1>

Referring to FIG. 1, the culture soil 2 was accommodated in two seedling containers 1 and 11, and the seedlings 3 of the cultivated plants were planted in two rows in the culture soil 2 of the seedling container.

Each of the seedling containers 1, 11 was provided with first heat pipes 5, 51.

The first heat pipes 5 and 51 are in the middle of the two rows of seedlings 3, and in the present embodiment, the first heat pipes 5 and 51 are installed at positions adjacent to the culture soils and in contact with the culture soils for explanation. Installed in the same location.

The 2nd heat pipe 6 was provided in the middle of the seedling container 1,11.

In addition, the drain pipe 4 was provided in the center of the bottom part of the seedling container 1, 11, and the appropriate pore was provided in the pipe wall of the drain pipe, and the excess moisture in the culture soil was discharged | emitted.

The first heat pipes 5 and 51 have coaxial inner tubes 5a and 51a and outer tubes 5b and 51b respectively positioned substantially horizontally, and the space between the outer tube and the inner tube is made into a vacuum. The working fluid (not shown) is filled and the working fluid is vaporized if one is forced to send a heating medium (e.g. water at a constant temperature) from one end of the inner tube to the other end (i.e., in a direction perpendicular to the ground in the figure). The inner surface of the outer shell was impinged, and as a result, infrared rays were radiated or absorbed from the outer surface of the outer shell to adjust the temperature of the seedling 3 and the culture soil 2 near the seedling.

The heat pipe 6 of FIG. 2 likewise has a coaxial inner tube 6a and an outer tube 6b that are substantially horizontal, and the space between the outer tube 6b and the inner tube 6a is made vacuum, The working fluid (not shown) is filled, and the exterior 6b is coaxial with the third pipe 6c having a plurality of openings in the pipe wall (in this case, the broken line indicates the opening of the pipe wall, not the sound ray). If the air is forcibly sent from one end of the space between the exterior 6b and the third pipe 6c to the other end, the exterior 6b is the same as in the case of the first heat pipe. Air heated by infrared rays sent from the outer surface of the radiator was radiated from the tube wall opening of the third tube 6c to adjust the ambient temperature of the seedling 3.

In this way, the temperature control can be efficiently carried out locally and accurately for the minimum required portion of the cultivated plant, without dissipating unnecessary energy. Super-tactile multiple cultivation through was made possible for the first time.

<Example 2>

Seedling containers 1 and 11 were disposed on the support 9 covered with the first heat insulating sheet 8 together with the second heat pipe 6.

Since the support 9 is located on the support 19 via the wheels 18, the support 9 can be moved relative to the support, and the operator stands between the support 19 and the adjacent support 191, thereby drawing the support 9. By pressing from side to side, it was easy to open the work passage reaching upward in the drawing. At that time, the passage that is not working on the left side in the drawing was closed.

<Example 3>

The first insulating sheet 8 is provided with weights 17 at both ends in the drawing, and the end portion 8b of the insulating sheet 8 is usually indicated by a broken line 8b on the right side of the support 9 in the drawing. As described above, it was legendary on the support 91 adjacent to the passageway space and was pressed by the weight 17.

The end portion 81b of the first thermal insulation sheet 81 on the adjacent support 91 is drooped in the present embodiment, but is superimposed on the end portion 8b of the thermal insulation sheet 8 on the support 9. You may do it.

When the worker presses the support 9 to form a passage, the end 8b of the heat insulating sheet 8 is folded and installed on the support 9 as shown by the solid line 8c.

Alternatively, natural dropping may be performed similarly to the end portion 81b of the heat insulating sheet 81.

In this way, since the working passage can be easily opened and closed, the arrangement pitch of the support, and therefore the seedling container, can be improved, and the thermal efficiency can be improved by making the whole compact.

Above the plurality of seedling containers 1, 11, the second thermal insulation sheet 89 is provided at least spaced apart so that an operator can walk, and the second thermal insulation sheet 89 is formed of a plurality of fixing tables 19. The whole row was covered, and the end part was overlapped with the edge part of the heat insulating sheet 8 of the base corresponding to the stationary table of the last row, and the inside was sealed.

As a result, there is little energy loss in internal temperature control.

<Example 4>

In Example 1, water of a predetermined temperature is introduced into the inner tubes 5a and 51a in a state in which the first heat pipes 5 and 51 are embedded in the culture soil 2 immediately before planting the seedlings 3. The cultured soil was sterilized by high pressure by heating by radiating far infrared rays.

As a result, the cultured soil was easily sterilized in a state in which the cultured soil was accommodated in the seedling container without spraying a fungicide or changing the cultured soil.

Example 5

This embodiment is a case where the seedling 3 of the cultivated plant is a strawberry seedling in the first embodiment.

In Fig. 1, after the seedlings, the warmed air radiated from the opening of the third pipe 6c covering the second heat pipe 6 is applied to the strawberry seedlings, and a procedure corresponding to nocturnal cooling is executed. Then, during hair growth, the far-infrared rays radiated from the first heat pipe 5 cold-warm the crown portion 3a of the strawberry seedling 3, that is, the temperature of the crown portion 3a to a predetermined temperature. Strawberry seedlings are planted in the cultured soil to control the differentiation of flower buds, and during the deletion, the heated air radiated from the openings of the third pipes covering the second heat pipes 6 It hit the strawberry fruit, raised the sugar content of the fruit, and suppressed the softening of the skin and the flesh of the fruit.

 In addition, although the seedling 3 was shown typically only by one leaf diameter and one root diameter in FIG. 1, the strawberry seedling 3 is the one which contact | connects the culture soil 2 in detail. "Crown site" (3a) and a plurality of flower roots, leaf diameters, runners, and a plurality of root diameters extending downward from the crown site to the culture soil.

In this way, the temperature control which is indispensable to the cultivation of strawberries, such as cold cooling of the crown part, cold heating of the crown part, fruit blowing, and the like, is carried out by temperature, time, and conveyance by an operator precisely. Since it can be carried out without, super-tactile multi-cultivation throughout the year of the strawberry is put to practical use by the present invention for the first time.

<Example 6>

Referring to Fig. 2, the permeability in the case where the front wall in the drawing is removed, for example, inside a dark room surrounded by a ceiling, a wall and a floor, and the germination shelf 51 of a multistage type (five steps in this embodiment) is a dark room Placed inside.

The heat pipe 61 was installed on the inner wall, the pipe 63 spraying mist was installed on the left and right wall surfaces and the ceiling, and the LED light source 65 was installed on the ceiling, respectively.

In addition, piping for spraying heat pipes and mists may be provided on all or part of the front wall, left and right wall surfaces, inner wall surfaces, and ceilings in the drawing.

In addition, the LED light source 65 may be turned on only for operation or monitoring in a dark room.

The heat pipe 61 has a coaxial inner tube and an outer tube disposed substantially horizontally, and the space between the outer tube and the inner tube is made into a vacuum, and then filled with a working fluid, and heats from one end of the inner tube toward the other end. Forcibly sending a medium (constant temperature water) radiates or absorbs infrared rays from the outer surface of the exterior, so that the temperature in the dark room can be freely controlled in the same manner as in Example 1.

If the heat pipe was further installed in the front wall, the left and right wall surfaces, the inner wall surface, and all or part of the ceiling in the drawing, the temperature control in the dark room could be more precisely controlled.

On the other hand, a seed (commercially available seed) to be germinated may be soaked in, for example, 1 hour in 20 minutes of negatively charged water at 20 ° C, and then the seed is sprayed onto the pallet 53, and the pallet 53 is negative. After being covered with a breathable sheet (cloth, gauze, or paper, not shown) infiltrated with charged water, the pallet 53 is brought into the dark room through the doorway 69 and placed in the room. 51).

After placing the pallet 53 in the multistage germination shelf 51 outside the darkroom, the germination shelf may be carried in and placed in the darkroom, thereby reducing manual work in the darkroom.

As indicated by the broken line in the dark chamber portion of the pipe 63 for spraying the mist, the temperature in the dark room was freely controlled by spraying the mist composed of negatively charged water through the pores provided in the pipe.

By installing the mist spraying pipe on the front wall, the left and right walls, the inner wall, and all or part of the ceiling in the drawing, the temperature control in the dark room can be more precisely controlled.

In this way, if the negative electric water mist is sprayed in an appropriate amount every 3 hours, the temperature is controlled at 38 ° C. and the humidity is set at 65 to 75%, and the environment in the dark room is managed. A germination rate of 95% could be achieved.

This result is more efficient than the normal dark germination rate of about 70% even after 48 to 72 hours.

<Example 7>

Referring to FIG. 3, it is an explanatory diagram in the case where a plurality of multistage germination shelves 51 described in the sixth embodiment are arranged in the dark room described in the sixth embodiment.

Compared with the above Examples 1 to 4 (FIG. 1), since the germination shelf 51 is positioned instead of the seedling containers 1 and 11, detailed descriptions of the structure and operation are omitted. As in the case of Example 4, it is clear that accurate environmental management and high efficiency workability can be obtained.

In addition, in the present embodiment, similarly to the first to fourth embodiments, a pipe for spraying the heat pipe and / or the mist may be provided inside and / or near the germination shelf 51.

As a result, more detailed environmental management becomes possible.

Through the embodiments 1 to 5, the pipes for spraying the heat pipes and mists are laid out in consideration of the order and the direction so as not to interfere with the loading and unloading of germination shelves and seedling containers. You may move the position slightly.

Claims (9)

A plurality of seedling containers accommodating cultured soil in which each seedling is planted divided into a plurality of rows, a support on which the seedling containers are mounted, a first heat pipe provided in proximity to or in contact with the cultured soil in the middle of the plurality of seedling rows; A second heat pipe installed on the support, The first heat pipe and the second heat pipe each have a coaxial inner tube and an outer tube disposed substantially horizontally, and after vacuuming the space between the outer tube and the inner tube, the working fluid is filled, and the Forcing the heat medium from one end of the inner tube to the other end radiates or absorbs infrared radiation from the outer surface of the exterior, the first heat pipe regulates the temperature of the stump of the seedling, and the second heat pipe also passes through the tube wall. Is coaxially accommodated in a third tube having a plurality of openings in the air and forcedly sends air from one end to the other end in the space between the outer tube and the third tube, the air heated by the infrared rays A super-tactile cultivation system, characterized in that it radiates from the opening of the tube wall to regulate the temperature around the seedling. The space according to claim 1, wherein the two seedling containers are mounted on one of the supporting objects, and the support is mounted on the fixing table so as to be movable, and each of the plurality of rows consisting of the plurality of fixing bars corresponds to a passage. It is disposed while leaving, the super-tactile cultivation system, characterized in that the passage is formed by pushing the support to one side. 3. The method according to claim 2, wherein the supporter is placed between the seedling container and the support and is adjacent to the support object adjacent to the height of the support, and covers a space between the support forming the passage for the worker. A first heat insulating sheet having an end portion that can be folded and a second heat insulating sheet spaced apart from each other over the plurality of seedling containers are provided, and the first heat insulating sheet and the second heat insulating sheet are provided in the entire plurality of rows of the fixing stand. A super-tactile cultivation system characterized by overlapping at an end to seal the inside. The super-tactile cultivation system according to claim 1, wherein before planting a plurality of said seedlings, a constant high temperature water is sent to an inner tube of said first heat pipe, and the culture soil is sterilized by heating according to the emitted far infrared rays. . 2. The plant of claim 1, wherein the plurality of seedlings are strawberry seedlings, and the stumps of the seedlings are crown portions of the strawberry seedlings; Performing a procedure corresponding to cold cooling by adjusting the heated air radiated from the opening of the third tube covering the second heat pipe after the seedling to the strawberry seedlings; The strawberry seedlings are planted in the culture soil so that far-infrared rays radiated from the first heat pipe in the seedlings cold-warm the crown portion of the strawberry seedlings to promote differentiation of flower buds; And The heated air radiated from the opening of the third tube covering the second heat pipe during the deletion increases the sugar content of the fruit in accordance with the fruit of the strawberry and at the same time suppresses softening of the skin and flesh of the fruit. Super tactile cultivation system. In a dark room surrounded by a ceiling, a wall, and a floor, a heat pipe is provided on the wall, a pipe for spraying a mist composed of negatively charged water is provided on the wall and the ceiling, and an LED light source is provided on the ceiling, respectively; The heat pipe has a coaxial inner tube and an outer tube disposed substantially horizontally, and after vacuuming the space between the outer tube and the inner tube, the operating fluid is filled, and the heat medium is moved from one end of the inner tube toward the other end. When forcibly sent, it emits or absorbs infrared rays from the outer surface of the exterior; Pre-soaking the seeds in negatively charged water, sowing the seeds on a pallet, and covering the pallets with a breathable sheet infiltrated with the negatively charged water; Bringing the pallet into the darkroom and placing it in a multi-stage germination shelf disposed in the darkroom; And And a pipe spraying the mist consisting of the heat pipe and the negative charged water to control temperature and humidity in the dark room. 7. The plurality of rows of germination racks according to claim 6, wherein the two germination shelves are mounted on one support, the supports are movably mounted on a fixture installed in the darkroom, and a plurality of rows of each of the plurality of fixtures are provided in the passage. It is arranged while leaving the corresponding space, the super-tactile germination system, characterized in that the passage is formed by pushing the support to one side. 8. The method of claim 7, wherein the supporter is positioned between the germination shelf and the support in contact with the support and is adjacent to the support object adjacent at the height of the support, and covers a space between the supports forming the passage for the worker. An insulating sheet capable of being folded at an end is provided, and the super-temporal germination system is overlapped with the wall surface at all ends of a plurality of rows of the stator to seal the inside. The super-tactile germination system according to claim 6, wherein, before planting a plurality of the seedlings, the pallet is subjected to high-temperature sterilization by heating according to the far-infrared rays radiated by sending a constant high temperature water to the heat pipe inner tube.

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