KR20150006598A - Ventilation apparatus for growing of crops under cover - Google Patents

Abstract

A first objective of the present invention is to discharge fluid through a ventilation duct after the fluid, discharged to a lower part and both side parts of a housing, naturally circulates in the housing. In order to achieve the first objective, supplying ducts are formed on the center of an upper side of the housing at predetermined intervals to be able to discharge the fluid through the lower part and both side parts; and the ventilation duct is formed on both side parts of the housing to discharge the fluid to the outside or to circulate the fluid. Particularly, a second object of the present invention is to guide a discharge direction through deflectors while preventing reduction of the pressure of the fluid transferred, thereby enhancing a ventilation effect by making the fluid be discharged smoothly at a predetermined location. In order to achieve the second objective, the supplying duct is formed to have the width gradually decreasing from one side of fluid supply to the other side of fluid discharge; and deflectors are arranged on a plurality of delivery ducts formed at a predetermined intervals on the supplying duct. A third objective of the present invention is to improve growth of crops by adjusting density of carbon dioxide quickly. In order to achieve the third objective, a ventilation unit, which actually circulates the fluid between the supplying duct and the ventilation duct, is formed to supply external air while the ventilation unit circulates internal air according to the density of carbon dioxide in the housing or discharges a portion of carbon dioxide with high density to the outside of the housing.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a ventilation apparatus for growing crops,

The present invention relates to a ventilating apparatus for cultivating a facility, and more particularly, to a ventilating apparatus for ventilating a facility having a ventilating apparatus for ventilating the ventilating apparatus, The circulation of the fluid and the outside air can be introduced so that the inside air or the outside air can be circulated in every corner of the housing to create an environment suitable for crop cultivation.

Generally, crops grown in facilities other than open areas are referred to as plant crops. Here, facilities are artificial structures that enable crops to grow without being exposed to the outside environment, such as greenhouses, glass greenhouses, plastic tunnels or buildings .

Because these plant crops are cultivated in enclosed structures (facilities), the specific cultivation conditions must be met according to the type of crop. For example, mushrooms absorb oxygen and release carbon dioxide because they do not have photosynthesis. This is because carbon dioxide is continuously released during the cultivation of mushrooms, so the outside air of the facility should be circulated in order to lower the concentration of carbon dioxide. Also, it is known that the concentration of carbon dioxide in the atmospheric state of the vegetable is 360ppm, which is about 25% higher when it is increased to about 760ppm. To this end, the concentration of carbon dioxide in the facility can be maintained You must.

[0004] The patent literature relates to a crop cultivation apparatus for automatically cultivating crops by automatically controlling environmental conditions such as temperature, humidity and cleanliness required by crops such as mushrooms. More particularly, The present invention provides an improved crop cultivation apparatus capable of increasing the productivity of crops and greatly improving the quality thereof.

However, such a conventional cultivation apparatus has the following problems.

(1) The air supplied to the housing is discharged from the both sides of the housing to the center of the indoor space, and the indoor air is discharged to the center of the upper part.

(2) Such a circulation structure can provide a ventilation effect on the central portion of the housing, but the ventilation effect on the upper portions of both sides is not properly performed, resulting in stagnation.

(3) Since the lowering of ventilation leads to the deterioration of the growth of the plant crops, the ventilation equipment should be enlarged to increase the ventilation effect. This requires a lot of initial capital investment costs.

(4) In particular, this problem becomes larger as the size of the crop cultivation facility increases.

Korean Registered Patent No. 1150303 (Registered on May 21, 2012)

SUMMARY OF THE INVENTION In view of the foregoing, it is an object of the present invention to provide a supply duct which is capable of discharging a fluid to a lower portion and a lower portion of the housing at predetermined intervals at a central upper portion of the housing, The present invention is directed to a ventilating apparatus for cultivating a facility for cultivating a plant, the apparatus comprising: an exhaust duct;

Particularly, the present invention is characterized in that the width of the supply duct is gradually narrowed toward the other side from which fluid is supplied, and a deflector is provided in a plurality of discharge ducts formed at predetermined intervals in the supply duct, The present invention is also directed to a ventilating apparatus for cultivating a plant cultivated in which the discharge direction can be guided through a deflector while reducing the pressure of the ventilating duct, thereby enabling smooth discharge of fluid at a predetermined position and increasing ventilation effect.

The present invention also provides a ventilation unit that substantially ventilates a fluid between a supply duct and an exhaust duct. The ventilation unit circulates the indoor air according to the concentration of the internal carbon dioxide of the housing, or discharges part of the carbon dioxide having a high concentration to the outside of the housing, It is a further object of the present invention to provide a ventilating apparatus for cultivating a crop so that the concentration of carbon dioxide can be adjusted more quickly and the growth of crops can be performed more smoothly.

In order to accomplish the above object, the present invention provides a ventilating apparatus for cultivating a crop for cultivating plants, which is installed in a housing (H) constituting a space for indoor cultivation of vegetables or mushrooms, A supply duct 100 installed along the longitudinal direction at an upper center of the inside of the housing H; A pair of exhaust ducts (200) provided on both sides of a lower portion inside the housing (H), provided with a plurality of exhaust ports (210) at predetermined intervals over the entire length; And a housing H which is installed inside or outside the housing H and circulates the indoor air into the housing H through the supply duct 100 and the exhaust duct 200 or selectively supplies outside air to the housing H, And a ventilation unit (300) for controlling the temperature and humidity of the inside of the cabinet, wherein the supply duct (100) is provided with a delivery duct (110) at predetermined intervals over its entire length, and each delivery duct Includes a downward duct 111 for jetting downward from the supply duct 100 and a pair of side ducts 112 for jetting the supply duct 100 to both sides of the supply duct 100.

Particularly, the supply duct 100 is formed so as to become gradually narrower toward the other side discharged from one side to which the fluid is supplied.

The downward duct 111 and the side duct 112 are each provided with a deflector D so that a part of the fluid can be branched from the supply duct 100.

The supply duct 100 and the exhaust duct 200 are installed inside the housing H so as to be arranged side by side. In this case, the exhaust ports 210 are provided at positions corresponding to the delivery ducts 110, respectively.

Lastly, the ventilation unit 300 allows the indoor air to circulate through the supply duct 100 and the exhaust duct 200 when the concentration of the carbon dioxide detected in the housing H is lower than a predetermined concentration, H, the outside air is supplied to the supply duct 100 while exhausting the inside air through the exhaust duct 200 to the outside of the housing H, while the carbon dioxide inside the housing H Is maintained at a predetermined concentration.

According to the ventilator for cultivating facility crops of the present invention, the following effects can be obtained.

(1) The fluid is discharged from the central upper part of the housing to the lower part and the both sides, respectively, so that air is circulated from both sides of the central part of the housing. Particularly, the recirculated air is recirculated through the exhaust duct provided on both sides of the housing Or can be discharged to the outside, the circulation can be evenly performed over the entire room.

(2) Since the inside of the housing can be circulated as a whole, growth conditions necessary for the cultivation of the facility crops can be satisfied, and the growth rate of crops can be increased.

(3) In particular, the shape of the supply duct, that is, from one end for supplying air to the other end is gradually narrowed so as to prevent the pressure of the air from going down toward the end, and the discharge duct By providing a deflector to adjust the direction of the air flow, it is possible to eject the air in a desired discharge direction without decreasing the pressure of the air, thereby further enhancing the ventilation effect.

(4) By regulating the concentration of carbon dioxide by recirculating the air or by supplying outside air according to the concentration of carbon dioxide in the housing, it is possible to regulate the concentration of carbon dioxide even in the case of cultivating crops such as vegetables and mushrooms that are affected by the growth of carbon dioxide So that it can be appropriately applied and used.

1 is a perspective view for showing the construction of a ventilator for cultivating a facility crop according to the present invention.
FIG. 2 is a perspective view showing an example in which a ventilating apparatus for cultivating a facility according to the present invention is applied to a housing. FIG.
3 is a plan view of a housing to which a ventilator for cultivating a facility crop according to the present invention is applied.
4 is a side view of a housing to which a ventilator for growing crops according to the present invention is applied.
FIG. 5 is a front view of a housing to which a ventilator for growing crops according to the present invention is applied. FIG.
FIG. 6 is a conceptual view showing a flow direction of a fluid in a housing to which a ventilator for cultivating a facility crop according to the present invention is applied.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and are not intended to represent all of the technical ideas of the present invention. Therefore, various equivalents It should be understood that water and variations may be present.

(Configuration)

1 to 6, a ventilation apparatus for cultivating facility crops according to the present invention includes a supply duct 100 and an exhaust duct 200 respectively installed at a central upper portion and lower both sides of a housing H, And a ventilation unit 300 for recirculating air or supplying outside air between the exhaust duct 100 and the exhaust duct 200.

Particularly, the fluid (air) is extruded from the supply duct 100 to the lower portion and both sides of the housing H, so that the interior of the housing H is divided into two portions as shown in FIG. 6 and is uniformly ventilated. The exhaust duct 200 can be recirculated or exhausted to the outside, thereby enhancing the ventilation effect in the housing H in a closed form.

Hereinafter, this configuration will be described in more detail as follows.

Here, the housing (H) is a facility for cultivating a facility crop, and includes a structure for implementing a dark environment such as a greenhouse or a tunnel, as well as a mushroom. The ventilation device according to the present invention can be used as any of the housings used in facility crops, but for convenience of explanation, the housing for cultivating vegetables or mushrooms will be described as an example.

1 and 2, the supply duct 100 is mounted on the upper portion inside the housing H. In particular, the supply duct 100 is provided with a plurality of discharge ducts 110 at predetermined intervals.

Particularly, it is preferable that the supply duct 100 is formed to be gradually narrowed from one side to another side where the fluid (air) is supplied. 3, the supply duct 100 is formed to be gradually narrowed from the right side of the drawing connected to the ventilation unit 300 toward the left side of the drawing in which actual discharge is performed, and gradually becomes smaller by a predetermined angle? . In the present invention, since the width of the supply duct 100 is reduced to have a small cross-sectional area, the ventilation unit 300 (300) The pressure of the pressurization pressure can be reduced.

 2 and 5, it is preferable that the supply duct 100 is located at the upper center of the inside of the housing H. This allows the fluid to be discharged in such a form that the fluid can be bisected when viewed from the cross-sectional shape of the housing (H) through the discharge duct (110) So that the ventilation can be performed evenly.

The supply duct 100 may be installed in the widthwise direction at the upper center of the inside of the housing H but may be installed in the longitudinal direction thereof to minimize the distance between the inside of the housing H and the supply duct 100, 110 to be ventilated uniformly in the housing H. [0064]

1 to 4, the supply duct 100 is provided with a plurality of discharge ducts 110 at predetermined intervals. The delivery duct 110 includes a downward duct 111 for downward spraying from the supply duct 100 and a pair of side ducts 112 for spraying to both sides of the supply duct 100 .

Particularly, as shown in FIGS. 3 and 4, the downward duct 111 and the side duct 112 are partly separated from the supply duct 100 in the flow of the fluid indicated by the arrows by the downward duct 111 and the side duct 112 so that the direction of the fluid can be changed. This deflector D changes the flow direction of the fluid required by each of the delivery ducts 110 and ensures a sufficient amount of fluid to branch through the delivery ducts 110.

1, 2 and 5, the exhaust duct 200 is installed on both sides of the inside of the housing H. An exhaust port 210 is provided in the exhaust duct 200 to discharge the inside air of the interior of the housing H at predetermined intervals.

In the preferred embodiment of the present invention, the exhaust duct 200 is disposed so as to be positioned in parallel with the supply duct 100 as shown in FIGS. 2 to 4, so that even when the delivery duct 110 and the exhaust port 210 are opposed to each other It is preferable that exhausting is performed through the exhaust port 210 at a point where the fluid press-fed by the downward duct 111 and the side duct 112 meet as shown in FIGS. 5 and 6, thereby increasing the ventilation effect.

In addition, in the preferred embodiment of the present invention, the exhaust ports 210 are formed at positions corresponding to the discharge ducts 110, respectively, so that the circulated fluid fed from the discharge ducts 110 is installed at corresponding positions So that the air can be discharged through the air exhaust port 210 so that ventilation can be performed more quickly.

The ventilation unit 300 is connected to the ends of the supply duct 100 and the exhaust duct 200 and is installed inside or outside the housing H. [ In the figure, an example is shown which is provided outside the housing (H).

The ventilation unit 300 may circulate the inside of the housing H through the supply duct 100 and the exhaust duct 200 connected to each other as shown in FIGS. 1, 3 and 4, or may circulate the outside air inside the housing H Thereby ventilating the room. The ventilation unit 300 may be made by a conventional technique.

Particularly, the ventilation unit 300 is generally used in the cultivation of facility crops. It can be cooled and heated so that the temperature inside the housing H can be controlled according to the season, and the optimum cultivation It is preferable to use a unit capable of providing conditions.

Meanwhile, the ventilation unit 300 according to the present invention can control the ventilation of the inside of the housing H according to the concentration of carbon dioxide when the concentration of carbon dioxide is important in growth such as mushrooms or vegetables desirable.

That is, the ventilation unit 300 can recirculate the interior of the housing H according to the concentration of the carbon dioxide detected in the housing H, thereby enabling to quickly control the ventilation effect and the temperature, or to control the outside air when the concentration of carbon dioxide is high So that the concentration of carbon dioxide in the housing H is lowered and ventilation is performed.

The control of the ventilation unit 300 is determined by comparing the detected value of the carbon dioxide inside the housing H with the predetermined concentration value of the carbon dioxide. Here, the "predetermined concentration value of carbon dioxide" means a reference concentration value used for maintaining an appropriate concentration value in the housing (H), such as a concentration of carbon dioxide suitable for development in the case of a specific crop such as vegetables or mushrooms.

The ventilation unit 300 circulates the interior of the housing H when the concentration of carbon dioxide detected in the interior of the housing H is lower than a predetermined concentration. This is achieved by the fact that the air discharged through the exhaust duct 200 is fed into the housing H through the supply duct 100 again through the ventilation unit 300. Since the stake has a proper temperature and a concentration of carbon dioxide, it is possible to supply the air suitable for the development of the plant crop while the ventilation is quick.

The ventilation unit 300 adjusts the concentration of carbon dioxide while supplying the outside air into the housing H when the concentration of the carbon dioxide detected in the housing H is equal to or higher than a predetermined concentration. This injects the outside air into the housing (H) through the supply duct (100) while exhausting the inside of the housing (H) to the outside through the exhaust duct (200). At the same time, the ventilation unit 300 continuously detects the concentration of carbon dioxide in the housing H and continues this state until it is below a predetermined concentration.

6, the air (air) sent out from the downward duct 111 is ventilated while spreading from the center to both sides, and is fed through the side duct 112 to the both sides The air in the housing H is ventilated while the fluid flowing in the housing H is formed into two types together with the fluid fed from the downward duct 111, And is recirculated through the exhaust duct 200 or discharged to the outside at a portion where the fluid (air) meets.

100: Supply duct
110: Delivery duct
111: Downward duct
112: side duct
200: exhaust duct
210: Exhaust
300: Ventilation unit

Claims (6)

1. A ventilation apparatus for cultivating a plant for growing vegetables or mushrooms in a housing (H) constituting a space for indoor cultivation,
A supply duct 100 installed along the longitudinal direction at an upper center of the inside of the housing H; A pair of exhaust ducts (200) provided on both sides of a lower portion inside the housing (H), provided with a plurality of exhaust ports (210) at predetermined intervals over the entire length; And a housing H which is installed inside or outside the housing H and circulates the indoor air into the housing H through the supply duct 100 and the exhaust duct 200 or selectively supplies outside air to the housing H, And a ventilation unit (300) for controlling the temperature and humidity inside and outside the room,
The supply duct 100 is provided with a supply duct 110 at predetermined intervals over its entire length and each supply duct 110 is provided with a downward duct 111 for supplying the supply duct 100 downwardly from the supply duct 100, And a pair of side ducts (112) for injecting air into both sides of the duct (100).
The method according to claim 1,
Wherein the supply duct (100) is formed to be gradually narrowed toward the other side discharged from one side to which the fluid is supplied.
3. The method according to claim 1 or 2,
Wherein the downward duct (111) and the side duct (112) are each provided with a deflector (D) so that a part of the fluid can be branched from the supply duct (100).
The method of claim 3,
Wherein the supply duct (100) and the exhaust duct (200) are installed inside the housing (H) so as to be arranged side by side.
5. The method of claim 4,
Wherein the exhaust port (210) is provided at a position corresponding to the delivery duct (110).
6. The method of claim 5,
The ventilation unit (300)
When the concentration of carbon dioxide detected in the interior of the housing H is lower than a predetermined concentration, the indoor air is circulated through the supply duct 100 and the exhaust duct 200,
When the concentration of the carbon dioxide detected in the interior of the housing H is equal to or higher than a predetermined concentration, the outdoor air is supplied to the supply duct 100 while the indoor air is discharged to the outside of the housing H through the exhaust duct 200, Wherein the concentration of carbon dioxide in the plant grows at a predetermined concentration.

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