KR101455166B1 - Plant cultivating using super air house - Google Patents

Abstract

The present invention relates to a plant cultivating facility using a super air house, wherein the super air house can be protected from wind pressure and snow pressure, and the structure thereof can be prevented from being damaged, so the penetration of external air can be blocked and plants that are grown can be prevented from being harmed. The plant cultivating facility comprises: a plant cultivating means (10) in which outdoor plants and hydroponic plants can be grown; a plurality of frames (20) which are folded up and down while forming a structure in a tunnel shape in order to cover the top of the plant growing means (10); an elastic member (50) which is separately installed in the frames (20) in order to elastically deform the frames (20) by means of external pressure; an inner film (30) which forms an indoor space by being supported while wrapping the frames (20) in the inside thereof; an outer film (40) which is supported while wrapping the frames (20) in the outside thereof; an air supplying means (60) which supplies air into the indoor space of the inner film (30) and also supplies air into the inner film (30); and a tunnel-shaped inlet and outlet path (70) which has an inlet and outlet door (71) installed to be connected to the inner film (30) and the outer film (40) in order to open and close the indoor part thereof.

Description

{PLANT CULTIVATING USING SUPER AIR HOUSE}

The present invention relates to a plant cultivation facility using a super air house which can withstand the wind pressure and squeezing pressure to prevent the structure from being damaged, thereby preventing infiltration of outside air, thereby preventing the damage of the cultivated crop.

Generally, plants are cultivated by feeding soil nutrients, sunlight, and rain water supplied during rainfall, and harvest the cultivated crops and use them as agricultural products.

However, there is a problem that the cultivation of such crops is influenced by the weather, and the harvesting time and yield are largely influenced by weakening of weather conditions such as abnormal high temperature, abnormal low temperature or strong wind, heavy rain or typhoon.

Thus, a plurality of pipe - shaped cultivated areas were planted in a cultivated area in the form of houses in a cultivated area, and a plastic house covering the upper part of a plurality of frames with vinyl was developed and used mainly in rural areas. The greenhouse blocks direct damage to the crops by strong winds and heavy rainfall, thus inhibiting growth inhibition factors to promote plant growth.

It is also possible to use various kinds of vegetables, flowers, fruit trees, and the like which are not able to be cultivated under the conditions of the outside air and temperature, respectively, by covering a heat insulating material on the upper part, a warming means such as a boiler on the inside, It is mainly used because special crops can be cultivated.

However, such a vinyl house has a problem in that crops which are destroyed due to wind pressure of a strong typhoon or snow pressure due to heavy snowfall are damaged.

BACKGROUND ART [0002] The background art of the present invention is disclosed in the Korean Intellectual Property Office, Patent No. 10-0480006, Mar. 22, 2005.

A problem to be solved by the present invention is to provide a plant cultivation facility using a super air house which can prevent damage to the cultivated crops by preventing penetration of outside air by preventing structure damage by enduring wind pressure and squeezing pressure I would like to.

A plant cultivation facility using a super air house according to an embodiment of the present invention includes a plant cultivation means 10 for cultivating a wild plant or a hydroponic plant and a tunnel type structure for covering an upper part of the plant cultivation means 10 A plurality of frames 20 which are vertically overlapped with each other while being formed on the inner frame 20 so as to be elastically deformed by external pressure; An inner film 30 which is supported by the inner film 30 so as to surround the outer frame 20 and an outer film 40 which is supported in a state surrounding the outer frame 20; An air supply means 60 for supplying air to the inner side of the inner film 30 and an outer film 40 provided in a state of communicating with the inner film 30 and the outer film 40, And includes a passage (70), and the frame (20) An upper pipe 21 having an upper hook 23 formed at the lower end thereof and an upper side hole 24 formed at both sides of the upper pipe 21 while being bent in an arch shape and an upper pipe 21 penetrating from one end to the other end, And a lower pipe 22 which is formed on the upper surface of the upper pipe 21 so as to be detachably fixed to both ends of the upper pipe 21 so as to stand up from the ground with the elastic member 50 installed to elastically support the upper pipe 21, The inner pipe 50 is inserted into the upper end of the lower pipe 22 and formed with an outer stopping hook 52. The inner pipe 53 penetrates from the upper end to the lower end so as to insert the upper pipe 21, An elongated hole 54 corresponding to the upper side hole 24 of the upper pipe 21 is elongated vertically and an elastic through hole 55 corresponding to the lower side hole 25 of the lower pipe 22 is formed, An elastic pipe 51 formed on both sides of the elastic pipe 51, An elastic body 56 for elastically supporting the upper stopping jaw 23 of the upper pipe 21 in a state in which the upper pipe 21 is supported by the upper pipe 21 and the upper hole 24 of the upper pipe 21, A lifting and lowering pin 57 which ascends and descends with the upper pipe 21 along the elongated hole 54 by the elastic force of the elastic body 56 and an elastic through hole 55 of the elastic pipe 51, And a lower fixing pin (58) fixed in a state of penetrating through a lower side hole (25) of the lower pipe (22).

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In addition, the plant cultivation facility using the super air house according to another embodiment of the present invention may include a plant cultivation means 10 for cultivating a non-plant or hydroponic plant, A plurality of frames 20 which are superimposed on each other while forming a structure and an elastic member 50 which is respectively installed on the frames 20 so that the frames 20 are elastically deformed by external pressure, An inner film 30 which is supported in a wrapping state to form an inner space, an outer film 40 which is supported in a state of wrapping the outer frame 20, An air supply means 60 for supplying air to the inside of the film 30 and a tunnel type air conditioner provided with a door 71 for opening and closing the indoor space provided in a state of communicating the inner film 30 and the outer film 40 And the air supply means (60) comprises an inlet passage An opening and closing plate 62 for covering the upper part of the water tank 61 and closing the internal space; a lower part of the opening and closing plate 62 and a water tank 61; A circulation part 63a provided in the partition 63 to guide the circulation of the water filled in the water tub 61 and a circulation part 63b provided in the partition 63 so as to pass through one side of the opening and closing plate 62 An air supply pipe 64 installed so as to be immersed in the water of the water tank 61 to supply outside air to the water in the water tank 61 and air and water supplied through the air supply pipe 64 to the circulation unit An air supply unit 65 for forcibly supplying air to the air supply pipe 64 so as to circulate the air through the circulation unit 63a through the circulation unit 63a and the other side of the opening and closing plate 62, An air discharge pipe 66 for discharging air to the inside of the inner film 30, and an air discharge pipe 66 for discharging air into the air supply pipe 64 and the air discharge pipe 66 Each is provided characterized in that it comprises a valve 67 for controlling the flow of air.

Preferably, the air supply means 60 further comprises an air supply pipe 64 or an air discharge pipe 66, further comprising a filter 68 for filtering dust or foreign matter from the air or a heater 69 for heating the air .

The present invention can prevent the structure from being damaged by enduring the wind pressure or the sagging pressure, thereby preventing the infiltration of the outside air, thereby preventing damage to the cultivated crop. That is, the crops can be stably grown in a warm room.

1 is a perspective view showing a plant cultivation facility using a super air house according to an embodiment of the present invention;
2 is a side view of the present invention.
Figure 2 shows the front view of Figure 1;
4 is a cross-sectional view showing the essential part of the present invention.
5 is a partial cross-sectional view showing another essential part of the present invention.
6 is an exploded perspective view showing another essential part of the present invention.
7 is a partial cross-sectional view showing a state in which another recessed portion of the present invention is mounted.

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

1 to 4, a plant cultivation facility using a super air house according to an embodiment of the present invention includes a plant cultivation means 10, a plurality of frames 20, an inner film 30, An outer film 40, an elastic member 50, an air supply means 60, and an entrance passage 70.

The plant cultivation means 10 can be constructed of a soil suitable for cultivating a non-crop plant, in which a non-crop plant or a hydroponic plant is cultivated. 4, the plant cultivation means 10 includes a re-battle 11 filled with a nutrient solution so that hydroponic plants can be cultivated, and a re-battle 11 installed in the rebuilt battle 11 where roots of hydroponic plants are immersed in the nutrient solution And a reed plate 12 for fixing the reed plate 12 in a state in which the reed plate 12 is fixed.

As shown in FIGS. 1 to 3, the frame 20 may be composed of a plurality of frames and may be vertically overlapped while forming a tunnel-shaped structure so as to cover the upper part of the plant growing unit 10. [

The frame 20 includes an upper pipe 21 penetrating from one end to the other end and bent in an arch shape and having an upper stop 23 formed at the lower end and an upper side hole 24 formed at both sides, And a lower side hole 25 is formed on both sides of the upper pipe 21 and is detachably fixed to both ends of the upper pipe 21 to stand up from the ground with the elastic member 50 installed to elastically support the upper pipe 21. [ And a lower pipe 22.

Accordingly, the lower pipes 22 having both ends of the upper pipe 21 fixed are spaced apart at regular intervals and continuously rise on the ground, so that a tunnel-shaped frame can be formed.

The inner film 30 is made of transparent vinyl so as to transmit light and is supported in a state of enclosing the inner frame 20 to form an indoor space. The inner film 30 can be filled with air so that it can be supplied to the plant cultivated in the plant cultivation means 10 and can block the outside temperature so that the plant cultivated in the plant cultivation means 10 can be isolated from the outside It is possible to protect it from the temperature of the air.

The outer film 40 is made of transparent vinyl so as to transmit light and is supported in a state of enclosing the outer frame 20. Therefore, the space in which the air of the inner film 30 is filled can be formed, so that the inflow of the outside air temperature can be blocked once more.

The inner film 30 and the outer film 40 are fixed by being embedded on the ground so that the air inside is not lost to the outside.

As shown in Figs. 6 and 7, the elastic members 50 are respectively installed in the frames 20 so that the frames 20 are elastically deformed by external pressure. The elastic member 50 is inserted into the upper end of the lower pipe 22 and has an outer side engagement protrusion 52 formed at the lower side to penetrate from the upper end to the lower end to insert the upper pipe 21, An elongated hole 54 corresponding to the upper side hole 24 of the upper pipe 21 is elongated vertically and an elastic through hole 53 corresponding to the lower side hole 25 of the lower pipe 22 is formed, The upper pipe 21 is provided with an elastic pipe 51 on both sides of which a hole 55 is formed. The upper pipe 21 is inserted into the elastic pipe 51, The elastic body 56 supporting the elongated hole 54 is fixed in a state of passing through the elongated hole 54 of the elastic pipe 51 and the upper side hole 24 of the upper pipe 21, And a lower side hole 25 of the lower pipe 22 is connected to the upper end of the elastic pipe 51 through the elastic through hole 55 of the elastic pipe 51 and the lower side hole 25 of the lower pipe 22, A lower fixing pin 58 is fixed in a state.

The elastic pipe 51 may be formed in a cap shape in which the inner space is opened upward.

The elastic body 56 is preferably composed of a compression spring.

The lifting and lowering pin 57 and the lower fixing pin 58 may be composed of bolts and nuts.

After the upper pipe 21 is inserted and fixed in the elastic pipe 51 while the elastic pipe 51 with the elastic body 56 is inserted and fixed in the lower pipe 22, 57 and the lower fixing pin 58 are fixed.

That is, the lifting and lowering pin 57 can be lifted and lowered along with the upper pipe 21 along the elongated hole 54 while the upper pipe 21 is fixed to the elastic pipe 51, The elastic pipe 51 can be fixed to the lower pipe 22.

Therefore, when an external pressure is applied to the upper pipe 21, the upper pipe 21 can be lowered while pressing the elastic body 56 of the elastic pipe 51. Of course, when the external pressure is released, the upper pipe 21 which has been lowered by the elasticity of the elastic body 56 can be raised.

Therefore, the frames 20, on which the inner film 30 and the outer film 40 are supported, can be elastically stretched and contracted by the elastic members 50, so that the inner films 30 and the outer films 40 40 or the structure of the frame 20 is not damaged, the infiltration of the outside air can be blocked, and the damage of the crop cultivated from the cold weather can be prevented in advance.

3 and 5, the air supply unit 60 supplies air to the inner space of the inner film 30 and also supplies air to the inner space of the inner film 30. [ The air supply means 60 includes a water tank 61 in which an inner space filled with water is buried in the ground and opens upward, an opening and closing plate 62 for covering the upper portion of the water tank 61 to close the inner space, A partition wall 63 connected to both ends of the lower portion of the plate 62 and the bottom of the water tub 61, a circulation portion 63a provided in the partition wall 63 to guide the circulation of the water filled in the water tub 61, An air supply pipe 64 provided in a state of being immersed in water of the water tub 61 in a state of passing through one side of the plate 62 and supplying external air to the water in the water tub 61, An air supply unit 65 for forcibly supplying air to the air supply pipe 64 so that air and water supplied through the air supply pipe 64 are circulated through the circulation unit 63a, An air discharge pipe 66 for discharging the air circulated through the circulation unit 63a to the inside of the inner film 30, And a valve 67 installed in the air vent pipe 64 and the air vent pipe 66 for controlling the flow of air.

As the water tank 61 is buried in the ground, the water filled therein may not freeze in the freezing weather.

As the opening / closing plate 62 closes the water tub 61 in a hermetically closed state, it is possible to prevent foreign substances from entering the outside.

The partition 63 can divide the water filled in the water tub 61.

The circulation part 63a is composed of a pipe provided at the upper part and the lower part of the partition wall 63, respectively. Therefore, the air passes through the lower part of the partition 63 through the pipe of the circulation part 63a provided at the lower part of the partition wall 63 together with the air by the air pressure introduced through the air supply pipe 64. [ The water that has passed through the partition 63 passes through the upper portion of the partition 63 through the pipe provided on the upper portion of the partition 63 again. That is, water circulates continuously by the inflow of air. At this time, the air can be discharged to the room of the inner film (30) through the air discharge pipe (66).

The air supply unit 65 is composed of a blower and an air compressor, and can supply air to the air supply pipe 64 forcibly. Thus, since the air is purified through the water and then supplied to the room through the air discharge pipe 66, the uncontaminated fresh air can be supplied to the crop to be cultivated.

The air discharge pipe 66 is installed in the room formed inside the inner film 30 so as to protrude at the end in a state of being buried in the ground. Accordingly, the air discharge pipe 66 can provide a constant temperature provided in the ground to the air to be perfused, so that the air to be perfused can be provided in the interior of the inner film 30 in a warmed state. That is, since the cold air outside the vehicle is heated to a predetermined temperature in a sub-zero weather condition, damage due to cold weather of the crop can be prevented.

The valve 67 can block the air supply or regulate the amount of air to be perfused.

The air supply means 60 further includes an air supply pipe 64 and an air discharge pipe 66. The air supply pipe 64 and the air discharge pipe 66 further include a filter 68 for filtering dust or foreign matter from the air or a heater 69 for heating air. Therefore, since the heated air is supplied to the room while filtering dust and foreign matter, the damage caused by the cold weather of the crop can be prevented in the subzero weather. The water tank 61 and the opening and closing plate 62 may be provided with an ultraviolet lamp 80 for sterilizing bacteria inhabited by water.

1 to 3, the entrance passage 70 is formed in the form of a tunnel provided with the inner film 30 and the outer film 40 so as to communicate with each other and having a door 71 for opening and closing the room . The entrance passage 70 may be connected in a state of passing through the inner film 30 and the outer film 40 by forming a pie arch-shaped frame and covering the upper portion of the frame with vinyl. At this time, the vinyl may be thermally welded to the inner film 30 and the outer film 40. Thus, people can be moved or moved through the door 71.

As described above, the present invention is a very useful invention that can be widely applied to a greenhouse capable of preventing the structure from damage due to external wind pressure or squeezing pressure and thus stably cultivating crops.

It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is to be understood, therefore, that the above description is intended to be illustrative, and not restrictive, and that the scope of the present invention will be defined by the appended claims rather than the foregoing description, All changes or modifications that come within the scope of the equivalent concept are to be construed as being included within the scope of the present invention.

10: Plant cultivation means 11: Re-battle
12: reed plate 20: frame
21: upper pipe 22: lower pipe
23: upper stopping jaw 24: upper side hole
25: lower side hole 30: inner film
40: outer film 50: elastic member
51: Elastic pipe 52:
53: inward tuck 54:
55: elastic through hole 56: elastic body
57: lifting and lowering pin 58: lower fixing pin
60: air supply means 61: water tank
62: opening / closing plate 63: partition wall
63a: circulation part 64: air supply pipe
65: air supply part 66: air discharge pipe
67: valve 68: filter
69: Heater 70: Entrance passage
71: door 80: ultraviolet lamp

Claims (5)

A plurality of frames 20 which are vertically overlapped to form a tunnel type structure so as to cover the upper part of the plant growing means 10; An elastic member 50 installed on the frames 20 so as to be elastically deformed by an external pressure, an inner film 30 supported in a state wrapping the inner frame 20 to form an inner space, An air supply means 60 for supplying air to the inner space of the inner film 30 and supplying air to the inner side of the inner film 30, And an entrance passage (70) in the form of a tunnel provided with a door (71) for opening and closing the room, which is installed in a state of communicating the film (30) and the external film (40)
The frame 20 includes an upper pipe 21 penetrating from one end to the other end and being bent in an arch shape and having an upper stopping jaw 23 at the lower end and an upper side hole 24 formed at both sides, And a lower side hole 25 is formed on both sides of the upper pipe 21 and is detachably fixed to both ends of the upper pipe 21 so that the lower pipe 21 standing on the ground in a state where the elastic member 50 is installed to elastically support the upper pipe 21. [ (22)
The elastic member 50 is formed at the lower portion of the lower portion of the lower pipe 22 so as to be inserted into the upper portion of the lower pipe 22. The upper portion of the elastic member 50 penetrates from the upper end to the lower end, An elongated hole 54 corresponding to the upper side hole 24 of the upper pipe 21 is elongated vertically and an elastic through hole corresponding to the lower side hole 25 of the lower pipe 22 And an elastic pipe 51 inserted in the elastic pipe 51 and supporting the upper stopping jaw 23 of the upper pipe 21 in a state in which the lower end is supported by the inward protrusion 53. [ The elastic body 56 is fixed in a state of passing through the elongated hole 54 of the elastic pipe 51 and the upper side hole 24 of the upper pipe 21 and is moved along the long hole 54 by the elastic force of the elastic body 56 An elevation fixing pin 57 ascending and descending with the upper pipe 21 and an upper fixing hole 57 extending through the elastic through hole 55 of the elastic pipe 51 and the lower side hole 25 of the lower pipe 22 And a lower fixing pin (58) fixed to the stomach. delete delete A plurality of frames 20 which are vertically overlapped to form a tunnel type structure so as to cover the upper part of the plant growing means 10; An elastic member 50 installed on the frames 20 so as to be elastically deformed by an external pressure, an inner film 30 supported in a state wrapping the inner frame 20 to form an inner space, An air supply means 60 for supplying air to the inner space of the inner film 30 and supplying air to the inner side of the inner film 30, And an entrance passage (70) in the form of a tunnel provided with a door (71) for opening and closing the room, which is installed in a state of communicating the film (30) and the external film (40)
The air supply means 60 includes a water tank 61 in which an inner space filled with water is buried in the ground and opened upward, an open / close plate 62 covering the upper portion of the water tank 61 to close the internal space, A circulation part 63a provided in the partition 63 for guiding circulation of the water filled in the water tub 61 and a circulation part 63b for guiding the circulation of the water filled in the water tub 61, An air supply pipe 64 which is installed in a state of being immersed in water of the water tub 61 in a state of passing through one side of the water supply pipe 62 and supplies the outside air to water in the water tub 61, An air supply portion 65 for forcibly supplying air to the air supply pipe 64 so that air and water to be supplied are circulated through the circulation portion 63a and the other side of the opening and closing plate 62 An air discharge pipe 66 for discharging the air circulated through the circulation unit 63a to the inside of the inner film 30, And a valve (67) installed in the air discharge pipe (66) and controlling the flow of air, respectively.
The air conditioning system according to claim 1, wherein the air supply means (60)
The air supply pipe (64) and the air discharge pipe (66) further include a filter (68) for filtering dust or foreign matter from the air or a heater (69) for heating the air. facility.

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