KR101730069B1 - Chamber raising seedling - Google Patents

Abstract

Disclosed is a grafted seedling activating chamber capable of controlling air flow inside a chamber so as to increase the rate of survival of grafted seedlings and to allow uniform growth. The graft-room incubation room includes an air conditioning room installed on one side of the chamber to form a circulating air flow of air inside the chamber, air blown from the air-conditioning room extending in one direction of the chamber to the opposite sides of the chamber, An exhaust duct for exhausting air to the inside of the chamber through holes and air holes formed at predetermined intervals in order to suck the air inside the chamber and air introduced into the chamber through the intake holes, And a plurality of partition walls spaced apart from the opposite side surfaces of the chamber. According to such a grafted seedlings, uniformity of humidity, temperature, and airflow inside the chamber is maintained, and the grafted seedlings can be effective for uniform growth.

Description

{CHAMBER RAISING SEEDLING}

More particularly, the present invention relates to a grafted seedlings room capable of producing a grafted seedlings having uniform growth and growth by controlling basic environmental conditions.

The method of producing grafted grafts by adhering the stems of plant eyes or snow with root roots with roots is called grafting, and grafts produced through this grafting process are called grafted grafts.

The grafted leaves and grafts are brought into close contact with each other by the oily tissue formed in the formation layer of the connection site, and are connected to each other to grow into a complete plant.

If the management of grafted seedlings is wrong, the whole plant grows weakly, and it is difficult to grow normally, and it is difficult to obtain a sufficient harvest. Therefore, the production of such grafted seedlings requires skilled skill in grafting, Environmental management technology is required.

Most of the grafted seedlings are activated by shading using a heat insulation curtain in order to prevent moisture from flowing out through a vinyl duct in the seedlings' greenhouse. Some of them are putting on artificial light in a seedling tray and straddling the environment. The control is performed with saturation humidification by using the air nozzle, the photosynthesis is insufficient, and the temperature control is not controlled by the airflow, so that the difference between the upper and lower temperatures is large.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above problems, and it is an object of the present invention to provide a grafted seedlings room capable of controlling air flow inside a chamber to increase the rate of survival of grafted seedlings and to enable uniform growth.

The graft survival chamber according to an embodiment of the present invention includes an air chamber provided on one side of the chamber to form a circulating air flow of air in the chamber, air directed from one side of the chamber toward the opposite side of the chamber, An exhaust duct for evacuating the inside of the chamber through exhaust holes formed at regular intervals in both directions, and an exhaust duct for exhausting air inside the chamber, the exhaust holes being pierced at regular intervals, And partition walls spaced apart from both sides of the chamber to form a flow path for introducing air into the air conditioning chamber.

The air conditioning chamber may include a blowing fan for keeping the air flow of the inside of the chamber at 0.5 m / s or less.

The exhaust duct may correspond to a side length of the chamber.

The partition wall may be formed with artificial light fixtures that include artificial light sources protruding from the partition wall to provide artificial light to the grafted seedlings so as to correspond to shelves that accommodate the seedling tray on which the grafted seedlings are mounted.

The intake holes may be spaced apart from the artificial light holders and punctured corresponding to the seedling trays.

The artificial light source includes an artificial light lamp for generating the artificial light, an artificial lamp lamp shade including a reflector for reflecting the light generated from the artificial light lamp, And a hooking part for mounting the artificial light lamp shade to at least one artificial light holder.

The temperature of the cooling water passing through the cooling pipe may be the same as the temperature inside the chamber or 1 to 2 DEG C higher.

The artificial light lamp is a fluorescent lamp, and a fluorescent lamp ballast for minimizing heat generated from the fluorescent lamp can be installed outside the chamber.

The air conditioning room is 8? And a humidifying device capable of spraying the humidity particles in the following ultra fine particle state.

The humidification device maintains the humidity in the activated chamber at 70 to 99%, and the maximum spray amount may be 3 L / hr or more.

As described above, according to the present invention, since the intake holes punctured in the partition wall are punctured corresponding to the position of the seedling tray and the exhaust duct extends corresponding to the partition wall, So that the humidity, temperature and airflow uniformity inside the chamber are maintained, which can be effective in uniformly growing the grafted seedlings.

1 is a plan view for explaining an armoring yarn according to an embodiment of the present invention.
Fig. 2 is a perspective view showing the exciting chamber of Fig. 1. Fig.
Fig. 3 is a front view showing the stitching chamber of Fig. 1;
Fig. 4 is a conceptual diagram showing the flow of airflow in the stator chamber of Fig. 1;
5 is a perspective view showing the artificial light source of FIG.
Fig. 6 is a graph showing the temperature and humidity distribution in the stator chamber of Fig. 1. Fig.

The present invention is capable of various modifications and various forms, and specific embodiments are illustrated in the drawings and described in detail in the text.

It should be understood, however, that the invention is not intended to be limited to the particular forms disclosed, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. The terms first, second, etc. may be used to describe various elements, but the elements should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the terms "comprising" or "having ", and the like, are intended to specify the presence of stated features, integers, steps, operations, elements, parts, or combinations thereof, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, parts, or combinations thereof.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

FIG. 1 is a plan view for explaining an exciting chamber according to an embodiment of the present invention, and FIG. 2 is a perspective view showing a partition wall 400 of FIG. Fig. 3 is a perspective view showing the exhaust duct 300 of Fig. 1, and Fig. 4 is a conceptual view showing the flow of air in the exciting chamber of Fig.

Referring to FIGS. 1 to 3, an exciting chamber according to the present embodiment includes a chamber 100, an air conditioning chamber 200, an exhaust duct 300, and a partition wall 400.

The chamber 100 is designed so as not to be influenced by changes in temperature and humidity with respect to the outside in order to maintain the environmental conditions for adhesion seedling growth. For example, a heat insulating material such as a heat insulating urethane having a thermal conductivity of 0.2 Kcal / m 2 h ° C or less can be used. The entrance and exit should have a thermal conductivity equal to or lower than the above-mentioned material, and a material to be insulated is used. Thus, the influence of external environment conditions on the environment for grafting of grafted seedlings can be minimized.

The air conditioning chamber 200 is installed on one side of the chamber 100 to control the internal environment. The air conditioning room 200 may include a humidifier, a cooling / heating unit, and a blower fan to control the environmental conditions inside the chamber 100 and the internal air flow. The environment inside the chamber 100 is sensed through a temperature and humidity sensor installed inside the chamber 200 or the chamber 100 and the humidifier and the cooling and heating apparatus of the chamber 200 are controlled according to the sensed temperature and humidity environment . For example, the temperature inside the chamber 100 is controlled within 1 ° C at a temperature of 20-30 ° C through a cooling / heating device, and is controlled within 2% at a humidity of 70-100% by a humidifier. The humidifying device can spray ultrafine particles of 8 μm or less and can be a humidifying device having a maximum spray amount of 3 L / hr or more so as to maintain the humidity in the activated chamber at 99% or more.

Thus, the air adjusted by the humidifier and the cooling / heating unit in the air conditioning room 200 is blown to the exhaust duct 300 through the blowing fan. The flow rate of the air in the chamber 100 may be controlled to be maintained at 0.5 m / s or less through a measurement sensor, which can be installed in the chamber 100, so that the speed of the blowing fan can be controlled.

The exhaust duct 300 serves to exhaust the air introduced from the air conditioning chamber 200 to the inside of the chamber 100 through the exhaust holes 310. The exhaust duct 300 can supply conditioned air in the chamber 100 to the entire interior of the chamber 100 at a uniform air flow rate.

1 and 2, the exhaust duct 300 is connected to the air conditioning chamber 200 at an upper center portion of one side of the chamber 100, and is connected to the exhaust duct 300 in one direction of the chamber 100 And the exhaust holes 310 are perforated at regular intervals in both directions toward both sides of the chamber 100.

The air exhausted into the chamber 100 through the exhaust holes 310 of the exhaust duct 300 is again sucked into the air holes 410 punctured in the partition wall 400 to be introduced into the air conditioning chamber 200, Thereby forming an internal air flow. The intake holes 410 may be formed at positions corresponding to the grafted seedling box 12 to be disposed later, or may be formed over the entire partition wall 400.

Referring to FIG. 1, the partition wall 400 is formed in a partition structure spaced apart from both sides of the chamber 100 to form a flow path for introducing the introduced air into the air conditioning chamber 200 . For example, the partition walls 400 are spaced 100 mm or more from the side of the chamber 100. Accordingly, the internal air sucked into the air intake hole 410 is again formed into the inside air flow into the air conditioning chamber 200, and the environmental conditions inside the chamber can be uniformly maintained.

As shown in FIG. 3 (a), the partition wall 400 is provided with an artificial light holder 430, which can receive an artificial light source 420 for providing artificial light to the artificial light. For example, the artificial light holder 430 may be installed directly on the partition wall 400, or the frame 440 for mounting the artificial light holder 430 may be formed on the partition wall 400, ) Can be installed. The artificial light holder 430 is installed corresponding to the end of the seedling tray 10 including the seedlings box 12 of the grafted seedlings, (410) may also be formed between the ends of the artificial light holder (430).

3 (b), the seedling growing tray 10 is manufactured in the form of a multi-stage, shelf so that the seedling box 12 of the grafted seedlings, ). ≪ / RTI > Accordingly, the artificial light source 420 fixed to the partition wall body 400 can move artificially downward from the seedlings box 12 by moving it so as to correspond to the artificial light frame 440. have. The interval between the ends of the artificial light frame 440 may be set within 28 to 30 cm, but may be adjusted according to the height of the height of the seedling tray 10.

5 is a perspective view showing the artificial light source of FIG.

5, the artificial light source 420 includes an artificial light lamp 422 for providing uniform light to uniformly grow the grafted seedlings, an artificial light valve 424 for receiving the artificial light lamp 422, And a hooking part 428 for attaching the artificial light lamp shade 424 to the artificial light holder 430.

When the artificial light lamp 420 is a fluorescent lamp, the interior of the chamber 100, which must maintain a high humidity, is cooled by the heat of the artificial light and thus the humidity is low. A reflector 424a is formed on the artificial light valve 430 so as to increase the light efficiency of the artificial light lamp 420 and to minimize the heat generation and to cool the heat generated in the artificial light lamp 420 And a cooling pipe holder part 426 for inserting a cooling pipe on the upper part of the artificial light valve 430 is formed. The light amount of the artificial light lamp 420 is increased by about 40% due to the formation of the reflection plate 424a, and the generated heat can be controlled by the cooling tube without a large change in the light quality. The temperature of the cooling water of the cooling pipe may be the same as the temperature inside the chamber 100 or may be 1 to 2 캜 so as not to affect the internal temperature of the chamber 100. In addition, when the artificial light lamp 420 is a fluorescent lamp, a stabilizer or the like for stabilizing the fluorescent lamp may be installed outside the chamber 100 to remove the maximum heat source.

As described above, the generation of heat by the artificial light bulb 420 is suppressed, and the internal air adjusted in the air conditioning chamber 200 is exhausted through the exhaust duct 300 and is again drawn in by the partition wall body 400 The internal airflow is formed as shown in Fig. 4, the internal environmental conditions are controlled, and it is possible to maintain uniformity. The inertial flow rate of the grafted seedlings is increased when the airflow is formed at a low velocity. Therefore, the internal airflow formed inside the chamber 100 can be maintained at a velocity of 0.5 m / min through the control of the blowing fan of the air conditioning chamber 200, s or less.

Fig. 6 is a graph showing the temperature and humidity distribution in the stator chamber of Fig. 1. Fig.

Referring to the graph, it can be seen that the temperature inside the chamber 100 is distributed within 1 ° C. of the set temperature of 22 ° C., and the humidity distribution maintains the target control value of 95%. In other words, even though the air current is low, the temperature difference between the upper and lower portions of the chamber 100 or the position of the air-conditioning chamber 200 is hardly observed due to the internal air flow formed in the chamber 100, And it can be seen that a uniform condition is formed.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

10: seedling tray 12: seedling box
100: chamber 200:
300: exhaust duct 310: exhaust hole
400: partition wall 410: intake hole
420: Artificial light lamp 430 Artificial light lamp holder
440: frame

Claims (11)

An air chamber installed on one side of the chamber to form a circulating air flow of the air inside the chamber;
An exhaust duct extending in one direction of the chamber and exhausting the air blown from the air conditioning chamber to the inside of the chamber through exhaust holes punched at regular intervals in both directions toward both sides of the chamber; And
Wherein the air suction holes are formed at predetermined intervals in order to suck the air inside the chamber and are spaced apart from both sides of the chamber so as to form a flow path for introducing air in the chamber into the chamber, And partition walls formed in the partition wall structure,
Further comprising a seedling tray configured to mount the grafted seedlings inside the chamber and formed in a movable structure,
Wherein,
And a frame for fixing the artificial light fixture protruding from the partition wall so that an artificial light source is provided on the grafted seedlings mounted on the shelves of the seedling growing tray,
Wherein the frame is provided to adjust the interval between the artificial light holders corresponding to the height of the shelf,
The artificial light source includes:
An artificial light lamp for generating the artificial light;
An artificial light lamp shade including a reflector for receiving the light from the artificial light lamp and reflecting the light generated from the artificial light lamp to a downside on which the grafted seedlings are mounted;
And a hook part for mounting the artificial light lamp shade to at least one artificial light holder,
Wherein the artificial light lamp shade includes a cooling tube mount portion in which a cooling tube for cooling heat generated in the artificial light lamp is installed,
Wherein the cooling tube passes cooling water having a temperature equal to or higher than the set temperature of the chamber by 1 to 2 DEG C above the temperature of the chamber so that the cooling tube cools the generated heat. The method according to claim 1,
Wherein the air conditioning room includes a blowing fan for keeping the air flow of the air inside the chamber at 0.5 m / s or less. The method according to claim 1,
Wherein the exhaust duct corresponds to a side length of the chamber. delete The method according to claim 1,
Wherein the air intake holes are spaced apart from the artificial light holders and punctured corresponding to the seedling trays.
delete delete delete The gluing arm stool as claimed in claim 1, wherein the artificial light lamp is a fluorescent lamp, and a fluorescent lamp ballast for minimizing heat generated from the fluorescent lamp is installed outside the chamber. The method according to claim 1,
Wherein the air conditioning room comprises a humidifying device capable of spraying humidity particles in a fine particle state of 8 占 퐉 or less. 11. The method of claim 10,
Wherein the humidifier maintains the humidity in the stool chamber at 70 to 90% and the maximum spray amount is 3 L / hr or more.

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