KR20170072385A - Rooting Grafted Seedlings Container For Moving - Google Patents

Abstract

The present invention relates to a movable seedling and seedling container, and more particularly, to a movable seedling and seedling container, which is provided with an inertia space having six wall surfaces assembled in an up, down, left and right direction provided as a space for maintaining constant temperature and humidity and a jointed seedlings, A plurality of pipes provided with gravel grafts mounted on the wall surface of the slidable space so as to flow constant temperature water to maintain the temperature of the indoor space; A nutrient solution supply means for supplying the nutrient solution from the bottom of the shelf to a tray mounted on each shelf of the bogie through the wall surface of the space and a circulation type circulation system And air circulation means for inducing air movement in the activated space , Which it has the features needed to build a mass production of grafted seedlings, seedling survival and to provide a portable container that can be easily presented to the mass production of healthy seedling survival space and mobility collateral composition.

Description

{Rooting Grafted Seedlings Container For Moving}

More particularly, the present invention relates to a container integrated with an activating device capable of realizing an environment for seedling planting anywhere, including a stationary bottom watering device And an air circulation device capable of uniform air circulation in the container, and capable of providing an environment suitable for growing and growing seedlings at any place.

As the area of horticulture grows, the demand for vegetable seedlings increases. Among them, the demand for grafted seedlings is increasing steadily.

This is because the seedlings production gradually changes from the way the individual farmers planted to the method of planting the seedlings in a specialized nursery with facilities and technology as they prefer good quality and uniform seedlings.

In order to produce uniform grafted seedlings, grafting and fusing technologies are required along with production of high-quality grafts and trees. So far, in most process nurseries, the method of activating grafted seedlings is produced in tunnels in which natural light has been blocked. Therefore, not only is the effort for environmental management required, but also the growth and morphogenesis of grafted seedlings depend on the temperature and humidity management conditions inside the tunnels. So it is difficult to produce high quality grafted seedlings.

It is difficult to precisely control the temperature, humidity, and light intensity in the summer when the outside temperature is high. In addition, there is a problem that the time required for management and cost is considerable because the area of the excavated space occupies a large portion of the nursery field cultivation area.

In order to solve these problems, artificial light source irradiation facilities to replace natural light, thermal insulation, improvement of air conditioning and heating system, mobile bogies to switch from planar seedlings to stereotypical seedlings, grafted seedlings that can precisely control temperature, Is required.

However, the technologies disclosed in the related art about the gluing apparatus and the facility are fixedly installed in the closed space to control the temperature, humidity, and seedling culture environment. Therefore, it is difficult to apply this apparatus to the process nursery which mass- .

Patent Document 001 Patent No. 10-0738296 Patent Document 002 Patent Registration No. 10-1141777 Patent Document 003 Patent Publication No. 10-2012-0094792 Patent Document 004 Registered Utility Model Room No. 0128802 Patent Document 005 Published Utility Model No. 20-2009-0000889

The present invention for solving the above-mentioned problem is to provide a method for cultivating seedlings from the time of adhering to the development of grafted seedlings to a suitable environment for growing seedlings, And to provide a container.

In order to achieve the above-mentioned object, the present invention provides a method of manufacturing a slide fastener, comprising the steps of: maintaining a constant temperature and humidity, and providing a space for sliding the grafted seedlings up, down, left and right, A plurality of pipes provided with gravel grafts mounted on the wall surface of the slidable space so as to flow constant temperature water to maintain the temperature of the indoor space; A nutrient solution supply means for supplying the nutrient solution from the bottom of the shelf to a tray mounted on each shelf of the bogie through the wall surface of the space and a circulation type circulation system And an air circulation means for guiding air movement in the activation space There is one feature in the homozygous seedling survival container.

In the nutrient solution supply means, the nutrient solution supply means is constructed so as to be horizontally constructed so as to penetrate the front and back side walls from the outside of the container so that the nutrient solution supply is performed along the bottom surface of each shelf composed of multi- And supplying the nutrient solution flowing through the supply pipe to the bottom surface of each shelf so as to extend to the bottom surface of each shelf extending along the longitudinal direction of the supply pipe, And a plurality of branch pipes for feeding only the nutrient solution.

Wherein the plurality of branch pipes comprise at least one piping structure having a relatively higher moving position than a tube position corresponding to the inflow starting position of the nutrient solution for a constant discharge amount of the nutrient solution fed to each shelf, Is a characteristic feature of a mobile seedlings container which is manufactured in a form taking into consideration the rate of drop of nutrient solution and the discharge amount of nutrient solution.

Wherein the air circulation means includes at least one airtight partition wall, at least one fan installed on the partition wall spaced apart from the ceiling and forcibly convecting the air, A plurality of air holes formed in the partition walls spaced apart from the side walls so as to allow air to be forcedly forced to be convected from the fans and a suction fan installed in each of the plurality of air holes to facilitate the passage of air, There is one feature in mobile seedlings and an active container.

The actuation space includes a first compartment space secured by a partition wall sealed at a spacing from a ceiling to a lower space as a convection space of air, a second compartment space secured by a partition wall sealed at each of the spacing points inward from the left and right side walls, And a third compartment space secured between the partition walls sealed at the respective inner and outer spacing points from the left and right side walls and from the left and right side walls to the rear of the first compartment space, A third compartment space, and a fourth compartment space, and is recycled into the first compartment space, and is moved.

Further comprising a supply pipe fixing means for fixing the supply pipe in a state of passing through the front and rear side walls from the outside in a pressurizing manner, wherein the supply pipe fixing means comprises a pair of fastening pins fastened and fixed to the front and rear walls from outside, A pressurizing portion for pressurizing and fixing a supply pipe inserted between the engaging pins in a state of being pulled out from the pair of engaging pins in the form of a pair of engaging pins, And a compression spring for providing elasticity in the direction of the supply pipe at the time of withdrawal of the pressure portion, wherein the compression spring has one end connected to the end of the pressure portion And the other end is hooked to the end of the fastening pin.

Further comprising branch pipe fixing means for connecting and fixing a plurality of branch pipes connected to the supply pipe to the bottoms of the respective shelves of the bogie, wherein the branch pipe holding means maintains a constant gap from the center of each of the shelves toward the vertical upper direction, A compression ring which is hinged to each other by a hinge and which is engaged at the center of the outer side of the pair of protrusions while being moved downward at the time of release of the engagement, And a tension spring connected to both ends of the compression ring at one end and connected to the lower ends of the protrusions at the other end to pull the compression ring in a downward direction when the compression ring is released.

Further comprising a release pin inserted into the center of the pair of protrusions so as to move to the outside of the protrusion by the true input of the branch pipe and to release the engagement of the compression ring, The other end contacting with the engine is formed in a hemispherical shape and the other end releasing the engagement of the compression ring is formed in a curved shape and the engagement ring of the branch pipe is hooked by the engagement protrusion formed at the lower portion of the hinge of the compression ring, There is one feature in mobile seedlings and an active container.

A plurality of rain-proof plugs installed in a suspended form on the ceiling of the moving space to apply power to the LED light sources installed in the plurality of bogies, and a plurality of rain- A mobile seedling, which is a container constructed integrally with a seedling and seedling device which is provided with a plurality of rainproof receptacles for energizing LED light sources installed in a plurality of bogies, and which provides an environment suitable for the establishment and growth of seedlings, There is one feature in the active container.

As described above, the movable type seedlings and seedlings container according to the present invention is an adiabatic closed space in which the temperature and humidity of the inside can be environmentally controlled, and a plurality of multi-stage rack- So that the grafted seedlings can be operated for the activation and growth of the grafted seedlings, so that the grafted seedlings can be mass-produced.

The mobile type seedlings and seedlings container according to the present invention is characterized in that it comprises a plurality of bogies mounted with grafted seedlings which are energized by an LED light source accommodated and installed in the abovementioned activating space and light beams emitted from an LED light source provided on each shelf of the multi- And the bottom surface equipped with the grafted tray is supplied with nutrient solution only to the roots of the grafted seedlings with the water tank type capable of puddling the nutrient solution and supplying the nutrient solution to the bottom surface of each shelf It is effective to smoothly supply nutrient solution to the grafted seedlings.

In addition, in the mobile type seedlings growth container according to the present invention, a waterproof LED light source is mounted on the upper part of each shelf of the multistage bogie, and a rain-proof receptacle on the upper part of each bogie and a rain- , It is easy to supply and move the grafted seedlings in a mass production environment of the grafted seedlings.

In addition, the movable type seedlings growth container according to the present invention is characterized in that, together with an alignment space for alignment storage of bogies according to the assembly of the six wall walls, watering means for supplying the nutrient solution, and air in the activation space are provided by a laminar flow ) Can be convected in a circulating manner, it is possible to easily install it in a place where the growth and growth of seedlings are required, and it is possible to provide a suitable environment for the growth and growth of the grafted seedlings And it is possible to provide quick and easy introduction of constant temperature water which can maintain a constant temperature without affecting the humidity of the room, There is an advantage that a uniformity can be improved and a healthy seedling can be mass-produced.

In addition, the portable seedlings and seedlings container according to the present invention has an effect of easily providing a suitable environment composition for securing growth and development of seedlings, regardless of a place, and securing rapid mobility.

1 is a perspective view showing a movable seedling growing container according to the present invention,
FIG. 2 is a perspective view showing bogies arranged inside the actuation space of the container shown in FIG. 1;
FIG. 3 is a perspective view showing a constant-temperature water pipe installed on the inner wall surface of the moving space of the container shown in FIG. 1,
FIG. 4 is a plan view showing the inside of the space for the movement of the container according to the present invention,
FIG. 5 is a front view of the inside of the space for the movement of the container according to the present invention,
Fig. 6 is a left side view of the inside of the moving space shown in Fig. 5,
Fig. 7 is a right side view of the inside of the moving space shown in Fig. 5,
Fig. 8 is a view showing a partition wall formed inside the left side of the excitation space shown in Fig. 5,
FIG. 9 is a view showing a partition wall formed in the right side of the excitation space shown in FIG. 5,
Fig. 10 is a perspective view showing the supply pipe fixing means shown in Figs. 6 and 7 in detail,
Fig. 11 is a front sectional view showing in detail the branch tube fixing means shown in Figs. 6 and 7,
12 is an exemplary diagram showing a structural form of the nutrient solution supply means shown in Figs. 6 and 7. Fig.

BRIEF DESCRIPTION OF THE DRAWINGS The objectives, specific advantages, and novel features of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG. It should be noted that, in the present specification, reference numerals are added to the constituent elements of the drawings, and the same numerals are assigned to the same constituent elements even if they are shown in different drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. do.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

The movable seedling growth container according to the present invention comprises an activating space (10) for use as an excavating chamber with the maintenance of constant temperature and humidity required for activating the grafted seedlings, and a plurality of bogies (50). However, the container is not limited to a box, but may include various shapes. Particularly, the formation of the above-mentioned space 10 in the container may be constituted by assembling the top, bottom, front, back, left and right six-sided walls. It should be noted that the assembly of these walls is not shown in the drawings.

Each of the trucks 50 includes a multi-stage shelf 51 and a light source 52 fixed to the bottom of the shelf so as to have more than one pair. A wheel is also provided at the bottom of the truck in consideration of the mobility of the truck.

The light source 52 is an LED light source and is disclosed in Japanese Patent Application No. 10-1397193 filed by the applicant of the present invention (date of registration, 2014, 05, 13) and 10-1483523 (date of registration, 2015, 01, and 12), and a combined ratio of the photon quantities to the LED light sources disclosed through the application No. 10-2015-0099728 (filed on June 1, 2015, July 14) The present invention relates to a method for controlling the speed of light, a wavelength band range for LED light sources, and a color for a light source. In order to contribute to the gluing efficiency, It is understood that the assembling structure relating to the right and left side walls and the front and rear wall described below is omitted in the drawings since the technical construction including the easy assembly wall is also applied.

The light source 52 irradiates the grafted seedlings in a state of being staked on a tray placed on the lower shelf 51 to assist the grafting rate of the grafted seedlings.

A plurality of bogies 50 arranged and aligned in the moving space 10 are connected to a light source 52 provided at the bottom of each shelf 51 by a power connection unit 70 which can receive power from the ceiling 11 Electricity will be supplied.

The power connection unit 70 includes a plurality of rain detection receptacles 72 suspended from the ceiling 11 and a rain prevention plug 71 connected from the upper end of each of the bogies 50, The power supply can be connected by plugging into the outlet 72. Of course, such a weatherproof plug 71 and the rainwater outlet 72 also block the inflow of water.

In the container of the present invention, as shown in Figs. 1 to 3, the above-mentioned transition space 10 is completed by assembling the top, bottom, front and back, right and left six-sided walls for the purpose of activating seedling growth and development, And a partition wall 62 is formed for securing a predetermined space in the moving space 10. The partition wall 62 is formed in the partition wall 62. [

A plurality of pipes 15 are arranged and fixed in such a moving space 10 in such a state that the trucks 50 carrying grafted seedlings are accommodated and a constant temperature water is flowed along each wall surface in the moving space 10 And the outer surface of the moving space 10 is composed of the ceiling 11 corresponding to the upper part, the left and right side walls 12 and 13 corresponding to the right and left sides, the front and rear walls 12 'and 13' , The container of the present invention is provided with an integrated structure with the apparatus required for the seedling growth.

4 and 5, the moving space 10 is formed by passing through each of the front and rear walls 12 ', 13' A nutrient supply means 20 for supplying the nutrient solution to the tray (not shown) mounted on each shelf 51 of the shelves 51 in the bottom surface manner; And an air circulation means (60) for forcibly circulating air through a space sealed and closed at an inner side spacing horizontally from the air circulation means (60).

A tray (not shown) mounted on the shelf 51 of the carriage 50 can provide sufficient nutrients to the grafted seedlings through the nutrient solution supplied by the nutrient solution supply means 20 as a starting point of the grafted seedlings.

Therefore, the nutrient solution supplied by the nutrient solution supply means 20 is supplied from the outside of the settling space 10 to the inside thereof, and supplied to the individual trays mounted on the respective shelves 51, thereby helping to develop the grafted seedlings.

The nutrient solution supply means 20 includes a supply pipe 21 passing through the front and rear walls 12 and 13 and a plurality of branch pipes 22 connected to the supply pipe 21 at regular intervals, The supply pipe 21 guides the nutrient solution injected from the outside of the container into the inside of the settling space 10 and is formed in a horizontal shape so as to maintain a constant gap in the supply pipe 21 The connected branch pipes 22 are connected to individual trays mounted on the respective shelves 51 of the carriage 50 and guide the nutrient solution guided into the inside of the moving space 10 to the individual trays.

8 and 9, a predetermined space is provided between the ceiling 11 and the left and right side walls 12, 13 at a position spaced inward from the ceiling 11 and the left and right side walls 12, 13 with reference to Figs. 4 and 5, The air circulation means 60 constitutes the air circulation means 60 for circulating the air in the form of a laminar flow (a regular flow of the fluid) A partition wall 62 sealed at a predetermined distance inward from the left and right side walls 12 and 13 and a fan 63 installed at the partition wall 61 And an air hole 64 formed in the partition wall 62.

In the air circulation means 60, the partition wall 61 is hermetically closed from the ceiling 11 in the inward direction, that is, in the vertical downward direction to secure a predetermined space, The partition wall 62 is hermetically closed from the left and right side walls 12 and 13 in the inward direction to secure a predetermined space and includes a plurality of air holes 64.

5, the air is moved along the first compartment space S1 secured by the partition wall 61 sealed at the lower spacing point of the ceiling 11, The inner space of the left side wall 12 is forcibly introduced into the second compartment space S2 secured by the partition wall 62 which is hermetically closed.

The air is moved to the third compartment space S3 having a plurality of bogies 50 arranged in the moving space 10 through the air holes 64 passing through the partition wall 62, The inner space of the right side wall 13 is exhausted to the fourth partition space S4 while being exhausted through the air holes 64 which are passed through the partition wall 62 which is hermetically sealed to the inside of the partition wall 62, And moves along the first compartment space S1 secured by the partition wall 61 which hermetically seals the lower spacing point of the ceiling 11 and circulates.

That is, the convection of the air moves along the first compartment space S1 secured by the partition wall 61 sealed from the ceiling 11 to the lower spacing point, And then flows through the third compartment space S3 in which the bogie 50 is dispensed and aligned and then the right side wall 13 is separated from the second compartment space S2, And a circulation pattern that flows into the fourth compartment space S4 secured by the partition wall 62 sealed to the inner separation space and then flows into the first compartment space S1 immediately after being moved.

As described above, by partitioning the inside of the moving space 10 into the first, second, third, and fourth partition spaces S1, S2, S3, and S4, air is uniformly circulated in the entire space of the Thereby allowing the grafting environment of the grafted seedlings to be optimized, as it continues with an even distribution of constant temperature and humidity.

On the other hand, a plurality of branch pipes 22 branched from the supply pipe 21 of the nutrient solution supply means 20 and supplying the nutrient solution to the bottom surface of the shelf 51 of each car 50, as shown in Fig. 12, The nutrient solution supplied from the horizontally installed supply pipe 21 is supplied to the racks 51 of the respective bogies 50 in the same constant amount by a vertical pipe extending vertically at regular intervals along the supply pipe 21 A horizontal pipe 22b extending in the horizontal direction in the vertical pipe 22, a vertical pipe 22c extending vertically in the horizontal pipe 22a, an outlet pipe 22a extending in a predetermined interval according to the length of the vertical pipe 22c, 22d.

In particular, the branch pipes 22 are required to have the vertical pipe 22a which is bent and extended in the vertical upward direction when each pipe is extended from one supply pipe 21. That is, in order for the amount of the nutrient solution supplied to the branch pipes 22 to be constantly supplied through the single supply pipe 21, the individual branch pipes 22 are supplied from the inflow position of the nutrient solution to the higher position It should be a configuration that should be accompanied by a progressive filling structural form.

In this way, the individual branch pipes 22 should be formed in at least one vertical tube that allows them to flow in a filled state from the inlet location to the higher position of the nutrient solution in its structural form, The straight pipe 22a may be applicable.

That is, when the nutrient solution flows into the individual branch pipes 22 from one supply pipe 21 and flows directly through the horizontal pipe 22b, the water flows down the vertical pipe 22c while falling along the vertical pipe 22c, There is no room for the nutrient solution in the branch pipe 22 to be filled up, as shown in FIG. 12, since the structure is such that it is discharged directly through the discharge pipes 22d extending at regular intervals over the length of the branch pipe 22 When the nutrient solution is introduced through the vertical tube 22a extending to the vertical upper part rather than the horizontal tube 22b, the nutrient solution in the branch tube 22 can be left filled.

Since the amount of the nutrient solution discharged from the discharge pipe 22d may vary depending on the dropping rate of the nutrient solution discharged through the branch pipe 22 through the supply pipe 21 due to the nutrient supply characteristic, Each corresponding discharge pipe 22d extending over the length of the vertical pipe 22c can be manufactured in consideration of the relationship with the discharge amount of the nutrient solution and the amount of the nutrient discharged from each of the corresponding discharge pipes 22d And can be supplied along the bottom surface of each shelf 51 in the same manner.

If the discharge amounts of the nutrient solution discharged from the respective discharge pipes 22d of the individual branch pipes 22 are different, the growth state of the seedlings developed in each individual shelf 51 is uneven and the growth of the seedlings is uniform This can result in failure.

Because of this, the individual branch pipes 22 are made to flow through the vertical pipe 22a, which is not the horizontal pipe 22b but the vertical pipe, so that the nutrient solution flowing into the vertical pipe 22a And each discharge pipe 22d is formed in a form taking into consideration the correlation between the falling rate of the nutrient solution and the discharge amount of the nutrient solution, The discharge amount of the nutrient solution discharged from each discharge port 22d of the shelf 51 can be kept constant, and the growth state of the seedlings activated in the individual trays of the respective shelves 51 can be equalized for this reason.

On the other hand, the supply pipe fixing means 30 is used for fixing the supply pipe 21 of the nutrient solution supply means 20, and as shown in Fig. 10, the front and rear barriers 12 'and 13' And the supply pipe 21 is fixed without rocking.

The supply pipe fixing means 30 includes a pair of fastening pins 31 inserted and fixed to the front and rear walls 12 'and 13', and a pair of fastening pins 31 32), a compression spring (33) for providing elasticity so that the pressing portion (32) can be withdrawn and drawn, and a supply pipe (21) connected between the pressing portion and the pair of fastening pins And a suction rubber pad 34 for restraining the swinging of the pipe 21.

That is, the pressing portion 32 drawn out from the pair of fastening pins 31 inserted and fixed to the front and rear walls 12 ', 13' is pressed against the compression spring 33 inserted into the hole of the fastening pin 31 And the elasticity is provided in the direction of being drawn out from the drawn state by providing the elasticity.

The compression spring 33 is installed in such a manner that one end of the compression spring 33 is engaged in the hole of the coupling pin 31 and the other end of the compression spring 33 is hooked to both ends of the pressing portion 32, So that elasticity acts on the pressing portion 32 in the drawing state.

Therefore, the pressurizing portion 32 in the drawn state pressurizes the supply pipe 21 in the process of being drawn by the elastic action to fix the supply pipe 21, and the pressurizing portion 32 is formed in a U- The supply pipe 21 is tightly adhered by the suction rubber pad 34 coupled to the inside of the supply pipe 21 while being supported through the adsorption rubber pad 34 which is coupled between the pair of fastening pins 31, The fluctuation is suppressed.

On the other hand, the branch pipe fastening means 40 connects each branch pipe 22 of the supply pipe 21 connected to the individual trays mounted on each shelf 51 of the carriage 50 to the carriage 50, A pair of protrusions 41 protruding upward from the center of the side of the shelf 51 and a pair of protrusions 41 projecting upward from the outside of the protrusions as shown in Fig. A pair of compression rings 45 for engaging and fixing the branch pipe 22 raised at the center of the side of the shelf 51 by being pinched in such a manner as to move to the vertical lower part when the retainer is released, A release pin (42) for releasing the engagement with a pair of compression rings (45) which are engaged and fixed while moving to the outside of the projecting portion (41) when the branch pipe (22) Comprises a tension spring (47) that provides resilience for the downward movement of the compression ring (45) upon release of the compression ring (45) A castle.

The pair of protruding portions 41 protrude upward from the shelf 51 in a state where the pair of protruding portions 41 are spaced apart from each other such that the branch pipes 22 can be inserted, The compression rings 45 are hingedly connected to each other and open in a locked state.

Each of the release pins 42 inserted through the center of each of the protrusions 41 has a hemispherical shape 43 at one end and a curved shape 44 at the other end. 43 are formed for the purpose of making a flexible movement to the outside of each protrusion 41 while being exposed to the inside of each protrusion 41 and coming into contact with the branch pipe 22 in the process of entering the branch pipe 22, The formed curved die 44 is formed for the purpose of easily releasing the clamping fixed ring 45 as a curved surface for connecting the curved surfaces formed on the outer sides of the respective projecting portions 41. [

The tension spring 47 is installed in such a manner that one end of the tension spring 47 is connected to the end of each compression ring 45 and the other end of the tension spring 47 is connected to the lower end of each of the protrusions 41, The compression ring 45 in the opened state is pinched as the compression ring 45 is pulled up to the vertical lower portion at the time of disengagement of the compression ring 45 to the engagement ring 23 of the branch pipe 22 by the engagement jaw 46 formed at the lower end of the hinge portion The branch pipes 22 are fixed to the respective shelves 51 of the carriage 50, so that the stable supply of the nutrient solution to the trays is achieved.

Meanwhile, the nutrient solution supplied to the tray through each of the branch pipes 22 is supplied only for a set time of a timer (not shown) installed in any one of the branch pipes 22 so that the nutrient solution can be supplied only for a predetermined period of time. .

As described above, the integrated type seedlings house according to the present invention is characterized in that it is possible to provide a space optimized for the gluing of the grafted seedlings and to consider the movement of the glued space so that the grafting of the grafted seedlings can be carried out anywhere. And the nutrient solution is supplied to the grafted seedlings through the supply pipe fixing means and the branch pipe fixing means for fixing the nutrient solution supply means and the nutrient solution supply means, It is possible to supply stable and convenient, and it is possible to maintain uniform distribution of temperature and humidity in the excavation space by the construction of the air circulation means. Therefore, it is possible to optimize the environment required for the grafting of grafted seedlings so as to promote mass production of healthy grafted grains anywhere .

10: Activated space 20: nutrient solution supply means
30: supply pipe fixing means 40: branch pipe fixing means
50: Bogie 60: Air circulation means
70: Power connection
S1: first compartment space S2: second compartment space
S3: third compartment space S4: fourth compartment space

Claims (9)

A stabilizing space having six wall surfaces assembled in vertical and horizontal directions, left and right direction provided to maintain constant temperature and humidity, and to provide a space for activating grafted seedlings;
A plurality of bogies mounted on the grafting space and accommodated in the stowed space, the grafted grafts being energized by an LED light source irradiated downward from an upper portion of a truck constituted by a multi-stage lathe;
A plurality of pipes installed at regular intervals on the wall surface of the moving space to maintain the temperature of the room by flowing constant temperature water;
Nutrient supply means for supplying the nutrient solution from the bottom of the shelf to the tray mounted on each shelf of the bogie through the wall surface of the abovementioned activation space from the outside; And
An air circulation means installed at an upper portion of the ceiling in the inside of the moving space to induce air movement in a moving space by a circulation method of a laminar flow;
Wherein the movable seedlings are arranged on the base. The method according to claim 1,
In the nutrient solution supply means,
A supply pipe constructed of a plurality of stages and constructed horizontally in a state of passing from the outside of the container to the front and rear side walls so that the nutrient solution is supplied along the bottom surface of each shelf composed of a water tank for desalinating the nutrient solution;
The nutrient solution flowing through the supply pipe is supplied to the bottom surface of each shelf so as to supply the nutrient solution only to the roots of the seedlings that are activated in the individual tray. A number of branches;
Further comprising: The apparatus according to claim 2,
And at least one piping structure having a relatively higher moving position than the tube position corresponding to the inflow starting position of the nutrient solution for a constant discharge amount of the nutrient solution fed to each shelf,
Wherein each of the discharge pipes constituting the final discharge line of the nutrient solution constituted in the plurality of branch pipes is manufactured in a form taking into consideration the discharge rate of the nutrient solution and the discharge amount of the nutrient solution. The method according to claim 1,
In the air circulation means,
A closed bulkhead securing a convection space of air in a state separated from the left and right side walls and the ceiling of the activated space;
One or more fans installed on the septum spaced from the ceiling to forcedly convect the air;
A plurality of air holes formed in the partition walls spaced apart from the left and right side walls to allow forced convection air from the fans to pass therethrough;
An intake fan provided in each of the plurality of air holes to facilitate passage of air;
Wherein the movable seedling growing container further comprises: The method according to claim 1,
Wherein,
A first compartment space secured by a septum partitioned from the ceiling to a spaced apart lower portion as a convection space of air;
Second and fourth compartment spaces secured by septated septums at respective angular spacings from the left and right side walls; And
A third compartment space secured between the partitioned walls at the respective spacing points on the inner side from the right and left side walls and in which the dispatch alignment of the bogies is made;
, ≪ / RTI >
Wherein the air is moved along the first compartment space and then flows into the first compartment space through the second compartment space, the third compartment space, and the fourth compartment space while being flowed back into the first compartment space. 3. The method of claim 2,
Further comprising a supply pipe fixing means for fixing the supply pipe in a state of passing through the front and rear side walls from the outside in a pressurizing manner;
Wherein the supply pipe fixing means comprises:
A pair of fastening pins fastened and fixed to the front and rear barrier walls from the outside;
A pressing portion for pressing and fixing a supply pipe inserted between the fastening pins in a hemispheric shape while being pulled out from the pair of fastening pins;
A suction rubber pad which is fixed between the pair of fastening pins and fixed to the inside of the pressing portion and moves by a drawing distance of the pressing portion and is fixed by pressing the supply pipe; And
A compression spring for providing elasticity in the direction of the supply pipe when the pressure portion is pulled out;
/ RTI >
Wherein one end of the compression spring is hooked to an end of the pressing portion and the other end is hooked to an end of the clamping pin. 3. The method of claim 2,
Further comprising branch pipe fixing means for connecting and fixing a plurality of branch pipes connected to the supply pipe to the bottom of each of the shelves of the car,
Wherein the branch pipe fixing means comprises:
A pair of protrusions protruding from the center of each shelf while maintaining a constant gap toward the vertical upper direction;
A compression ring which is hinged to each other at a center of the outer sides of the pair of protrusions and which is moved in a downward direction at the time of disengagement and which is simultaneously closed and which fixes the branch pipe inserted between the protrusions; And
A tension spring having one end connected to both ends of the compression ring and the other end connected to a lower end of each of the projections to pull the compression ring downward when the compression ring is released;
Wherein the movable seedling growing container further comprises: 8. The method of claim 7,
Further comprising a release pin which is inserted into the center of the pair of protrusions and moves to the outside of the protrusion by the infeed of the branch pipe and releases the compression ring,
One end of the release pin which is in contact with the branch pipe at the time of entering the branch pipe is formed in a hemispherical shape and the other end for releasing the engagement of the compression ring is formed in a curved shape;
Wherein the engagement ring of the branch pipe is hooked by the engaging jaws formed at the lower portions of the hinges of the compression ring to fix the branch pipes to each other. The method according to claim 1,
A plurality of rain-proof plugs installed in a suspended form on the ceiling of the moving space to apply power to the LED light sources installed in the plurality of bogies, and a plurality of rain- A plurality of rain-proof receptacles for energizing an LED light source provided in each of the plurality of bogies;
Wherein the container is a container in which a seedlings growth apparatus that is moved independently of a place and easily provides an environment suitable for the activation and growth of the seedlings is integrally constructed.

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