KR101061465B1 - A environment-friendly greenhouse structure for agriculture - Google Patents

Abstract

The present invention relates to an environment-friendly greenhouse structure that is stable and smooth supply of agricultural water and drainage and natural heating, such as heavy snow, rainfall, typhoons, etc. More specifically, is provided with a plantation where the crop is grown and along the outer periphery of the plantation A cultivation space part having a reservoir space in which water is stored in a predetermined depth in a surrounding state and a weir-shaped structure stacked by stacking soil to surround a cultivation space part at a predetermined height along the outer periphery of the reservoir space to form a wall. One side is provided with an entrance door to the inside of the cultivation space portion, and the upper surface portion is formed with a drainage passage along the center portion and the drainage passage is connected to a plurality of drainage pipes to collect the water collected in the drainage space of the cultivation space portion. Of the weir structure and the framing frame and the framing frame It consists of a barrier covering the upper part and covers the open top of the cultivation space to form a roof, but the outer end of the frame frame is fixed while being raised to match the upper surface of the weir structure, and the lower end of the outer end of the barrier The present invention relates to an eco-friendly greenhouse structure for agriculture, which is composed of a roof structure positioned inside the drainage channel so that water flowing along the barrier film is introduced into the drainage channel.

Description

A environment-friendly greenhouse structure for agriculture

The present invention relates to an environment-friendly greenhouse structure having a stable and smooth supply of agricultural water, such as heavy snow, rainfall, typhoons and the like, and high cooling and heating efficiency. A water storage space is formed in the ground in a state surrounded by a circumference, and the water storage space is provided with one or a plurality of water barriers provided with a filter for filtration and a circulation pump is installed so that the stored water is filtered. It is a cultivation space part and a weir-shaped structure stacked by stacking soil to form a wall surrounding the cultivation space part at a certain height along the outer periphery of the reservoir space, and on one side for access to the inside of the cultivation space part. The door is provided, and the upper surface portion has a drainage path formed along the center portion. A plurality of drain pipes are connected to the water channel, and a bank structure for draining the water collected in the drain into the storage space of the cultivation space, and a frame covering the frame frame and the upper portion of the frame frame, covering the open upper portion of the cultivation space part of the roof. The outer end portion of the frame frame is fixed to be raised to match the upper surface portion of the weir structure, and the lower end portion of the outer membrane portion of the barrier film is located inside the drainage channel so that water flowing along the barrier film flows into the drainage channel. It relates to an eco-friendly greenhouse structure for agriculture, characterized in that consisting of a roof structure.

In general, the greenhouse structure is used as a storage facility for the rapid cultivation of various vegetables or fruits, a hotbed for planting flowers or tropical plants, or a drying place or storage of other crops, and the greenhouse structure is an iron structure (pipe or aluminum chassis). ) To provide a greenhouse structure by constructing a frame and installing a barrier film made of transparent vinyl having good transmittance of sunlight on the outside of the frame of the iron structure as a whole.

Looking specifically at the construction of the framework of the greenhouse structure as described above, the foundation civil engineering work to flatten the ground to be built, and the construction of the greenhouse structure using the framework of the steel structure on the ground on which the groundwork is completed, the framework is a greenhouse greenhouse A plurality of struts installed in parallel in a state of being vertically placed on the ground on which the structure is to be constructed, having a predetermined height and width, and connected in a horizontal direction along the upper surfaces of the plurality of struts forming a space inside the greenhouse structure It consists of horizontal beams on the left and right sides to be installed, and a plurality of fixed frames that are arched at regular intervals before and after crossing the horizontal beams, and the outer surface of the greenhouse structure is provided with a barrier film made of transparent vinyl as a whole. Installation is complete.

However, the conventional greenhouse structure wall is formed by a plurality of struts, the bent in the event of typhoon, heavy snow or rainfall, the greenhouse structure is easily collapsed and the wall is surrounded only by a thin film, etc. There was a problem that the damage is large and difficult to maintain the inside of the greenhouse structure at a constant temperature and excessive heating costs.

In addition, rainwater that has flowed down the barrier of the greenhouse structure during rainy weather is lost to the outside, and rainwater cannot be recycled into agricultural water.In the case of supplying agricultural water, external agricultural water is pumped into the greenhouse structure to supply the agricultural water. There was a problem to draw up to supply agricultural water to the crops.

The present invention is to solve the problems as described above having a reservoir space for storing water to a certain depth along the outer periphery of the cultivated land in which the crop is grown into a bank structure stacked by stacking the soil along the outer periphery of the reservoir space A wall structure is formed on the top of the weir structure to cover the roof structure consisting of a frame frame and a barrier film, and the roof structure is supported by a multi-stage soil layer stacked so that the roof structure is stably supported even in a typhoon or rainfall, while maintaining high heating efficiency. The rainwater flowing down along the barrier of the roof structure is stored in the reservoir through drainage pipes and drainage pipes formed along the upper surface of the bank structure, and the water of the reservoir is recycled into agricultural water for supplying the plantation. have.

In order to achieve this purpose, a plantation area in which crops are grown is provided, and a reservoir space is formed in which water is stored in the ground in a state surrounded by the outer periphery of the plantation, and the reservoir space is provided with a filter for filtration. Two water barriers are installed, and a circulation pump is installed so that the stored water is filtered and circulated, and a bank-like structure in which soil is stacked and stacked is surrounded by a certain height along the outer circumference of the water storage space. It is formed to form a wall, and one side is provided with an entrance door for entering the inside of the cultivation space part, and a drainage path is formed along the middle part of the upper surface part, and a plurality of drainage pipes are connected to the drainage path to cultivate the water collected in the drainage path. Weir structure, drain frame, and water drainage It consists of a barrier covering the upper part of the frame frame and covers the open top of the cultivation space to form a roof, but the outer end of the skeleton frame is fixed while being raised to match the upper surface of the weir structure and the outer part of the barrier. The lower end portion of the tip is located in the drainage passage is formed of a roof structure in which water flowing along the barrier film is introduced into the drainage passage is characterized by the present invention.

As described above, according to the present invention, a storage space is provided in which water is stored at a predetermined depth along the outer periphery of the plantation where the crop is grown, and the wall is formed by a weir structure stacked by stacking soil along the outer periphery of the reservoir. In the upper part of the weir structure, a roof structure composed of a frame frame and a barrier film is installed, and the roof structure is stably supported by typhoons, strong winds, and rainfall by stacked weir structures composed of stacked multi-layer soil layers. High stacking efficiency can be maintained by the stacked weir structures, and rainwater, which flows down along the barrier film of the roof structure, is stored in the storage space through drainage pipes and drainage pipes formed along the upper surface of the weir structure and collects the water collected in the storage space. Eco-friendly by recycling with agricultural water supply to plantation There is an effect that can provide a greenhouse structure.

1 is a perspective schematic view of a state in which a roof structure is decomposed in an eco-friendly greenhouse structure for agriculture according to the present invention;
Figure 2 is a schematic perspective view showing the assembly state of the environment-friendly greenhouse structure for agriculture according to the present invention
Figure 3 is a schematic cross-sectional view of an eco-friendly greenhouse structure for agriculture according to the present invention
Figure 4 is a schematic plan view of a state in which the roof structure is removed from the eco-friendly greenhouse structure for agriculture according to the present invention
5 is an enlarged view of portion “A” of FIG. 3;
Figure 6 is a schematic cross-sectional view of the anti-rust means installed on the bank structure of the eco-friendly greenhouse structure for agriculture according to the present invention
7 is a schematic plan view showing another embodiment of a state in which the roof structure is removed from an eco-friendly greenhouse structure for agriculture according to the present invention;
Figure 8 is a perspective schematic view of the thermal insulation panel installed between the holding in the eco-friendly greenhouse structure for agriculture according to the present invention
Figure 9 is a perspective schematic view showing a state in which the roof structure is composed of one arch frame frame in an eco-friendly greenhouse structure for agriculture according to the present invention

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

Eco-friendly greenhouse structure (1) of the present invention is an environment-friendly greenhouse structure having a stable and smooth supply of agricultural water, such as heavy snow, rainfall, typhoons, and the like, as shown in Figures 1 to 9 and a high cooling and heating efficiency, crops The cultivation space (2) is provided with a cultivated planting area (3) is provided with a cultivation space (2) is formed along the outer periphery of the cultivated land (3) and the water reservoir is stored in the ground, the soil is laminated A stacked bank-like structure is formed to form a wall surrounding the cultivation space 2 at a predetermined height along the outer periphery of the reservoir space 4, and on one side, an entrance door for entry into the cultivation space 2. (26) is provided on the upper surface portion is formed with a drainage passage 27 along the center portion and the drainage passage 27 is connected to a plurality of drainage pipes 28, the water collected in the drainage passage 27 cultivation space (2) Reservoir of) It consists of a weir structure 25 to drain to the space (4), the frame frame 43 and the blocking film 44 covering the upper portion of the frame frame 43 and covers the open upper portion of the cultivation space (2) The outer end portion of the frame frame 43 is formed to be fixed while being raised in accordance with the upper surface portion of the weir structure 25, and the lower end portion of the outer edge portion of the barrier film 44 is formed inside the drainage passage 27. It is composed of a roof structure (42) positioned to allow water flowing along the blocking film (44) to flow into the drainage path (27).

1, 4, 6 to 8 is a portion in which a certain amount of water used as agricultural water is stored while the crops are cultivated as shown in FIGS. 1, 4, 6 to 8, and the plantation area 3 having a predetermined size where the crops are grown is provided. The water is stored in the ground along the outer periphery of the plantation area (3) in a predetermined depth to the water storage space (4) is formed, the outer periphery of the water storage space (4) surrounding all sides at a constant height The cultivation area 3 and the reservoir space 4 of the inner side are protected by the weir structure 25, and the roof structure 42 is opened on the open upper portion of the cultivation space 2 in a state surrounded by the weir structure 25. ) Is installed so that the upper portion of the plantation (3) and the reservoir space (4) is protected from snow, rain, and the like.

3, 4, and 6, the corrugated pipe 5 is embedded in a plurality of corrugated pipes 5 in a transverse direction across the planted land 3 in a predetermined depth of land as shown in FIGS. The holes 6 are perforated and the outer circumferential surface thereof is wrapped with the nonwoven fabric 7, and both ends of the corrugated pipe 5 are installed to be exposed to the outside through the upper side of the water storage space 4 so as to be supplied to the plantation 3. Agricultural water that is not absorbed by the crops of the agricultural water is to be permeated into the corrugated pipe (5) through the hole 6 perforated in the corrugated pipe (5) is to be sent to the reservoir space (4) and the The nonwoven fabric 7 wrapped around the outer circumferential surface prevents dirt and the like from entering the plurality of holes 6.

In addition, as shown in Figures 1, 3, 6, the cultivation site (3) is a plurality of support column 8 is fixedly installed vertically at a predetermined interval on the ground and the plurality of support column (8) is installed at the top Supporting the lower surface portion of the frame frame 43 of the roof structure 42 is to prevent the center portion of the roof structure 42 to collapse by snow, rain or the like.

Meanwhile, as shown in FIGS. 7 and 8, the plurality of support columns 8 respectively absorb and accumulate the heated heat inside the culture space 2 during the daytime when sunlight shines, and the culture space 2 The heat storage panel (9) is installed to increase the heating efficiency, each heat storage panel (9) is provided with a wire (10) wrapped between the two support column (8) and the heat storage in the interior between the wire (10) The heat storage material 11 such as crests for filling is filled and the outer material of the heat storage material 11 is filled with a finishing material (12) mixed with a certain ratio of ocher, glutinous rice, lime, etc. The heat treatment panel 9 is coated, and if necessary, the heat storage panel 9 may be purchased by installing a commercial heat storage panel.

The reservoir 4 is dug into the ground approximately 1 to 2m deep and the top is open, and as shown in Figs. 3, 4, 6, and 7 through the lower portion of the weir structure 25, the outer side The discharge pipe 13 buried in the water is provided in the reservoir space 4 when the water is stored above a certain level, the natural land discharged to the outside of the greenhouse structure (1) through the discharge pipe 13, the cultivated land (3) It is to prevent the flooding, and the connection bridge 14 is placed at the upper portion of the access structure 26 of the weir structure 25 to allow easy movement to the plantation 3 through the door 26. It is.

In addition, one or a plurality of water barriers 15 are installed in the water storage space 4 at a predetermined interval as shown in FIG. 4, and the water barriers 15 are provided with a filter 16 for filtering foreign substances and the like. Is provided and the pump installation space portion 18 is provided with the circulation pump 17, the suction pipe 19 provided in the circulation pump 17 is a storage space located on one side of the pump installation space 18 The water supply pipe 20 is provided to suck the water of (4) and provided in the circulation pump 17 is the water sucked from the suction pipe 19 in the storage space (4) located on the other side of the pump installation space (18) As the water is circulated by the circulation pump 17, the water stored in the water storage space 4 is circulated through the filter 16 provided in the water barrier 15.

On the other hand, the circulation pump 17 is connected to the auxiliary discharge pipe 21, the auxiliary discharge pipe 21 is installed through the bank structure 25 to the outside of the greenhouse structure (1) is a storage space ( When the water level of 4) is rapidly increased, the water is discharged to the outside of the greenhouse structure 1 through the auxiliary discharge pipe 21.

In addition, the pump installation space 18 is to be additionally installed in the auxiliary circulation pump 22 as shown in Figure 7 and the auxiliary circulation pump 22 is zigzag (zigzag) along the upper surface of the plantation (3) It is connected to the circulation pipe 23 is installed in such a way to supply the water in the reservoir space (4) to the circulation pipe 23, the circulation pipe 23 is a tube whose outer peripheral surface is painted in black one end is an auxiliary circulation The other end is connected to the pump 22 and the other end is positioned at the upper portion of the water storage space 4 and is controlled by the on / off valve 24 so that the inside of the cultivation space part 2 is warmed by sunlight during the summer time. By operating the auxiliary circulation pump 22 in the state in which the open / close valve 24 is opened while the circulation pipe 23 absorbs the heat, the low temperature of the storage space 4 stored in the ground along the inside of the circulation pipe 23 is maintained. The water is circulated continuously to cool down and in winter The on-off valve 24 is closed to prevent the water stored in the circulation pipe 23 from circulating and the operation of the auxiliary circulation pump 22 is stopped to heat the circulation pipe 23 heated by sunlight during the day. The water inside is absorbed and kept warm.

The weir structure 25 is a portion that forms a wall surrounding the outer circumference of the cultivation space 2 from all directions as shown in FIGS. 1 to 7 and 9, and forms a weir shape structure by stacking soil at a predetermined height. Surrounding the circumference of the storage space (4) to form a wall surrounding the cultivation space (2) to a certain height and one side is provided with an entrance door 26 for access to the interior of the cultivation space (2) A drainage passage 27 is formed along the center portion of the upper surface portion, and a plurality of drainage pipes 28 are connected to the drainage passage 27 to collect the water collected in the drainage passage 27. To drain).

The weir structure 25, as shown in Figure 3 has a longitudinal cross-sectional shape of the lower end is wider and narrower toward the upper trapezoidal shape and is stacked to form a dam shape by stacking the soil, shown in Figures 5 and 6 As described above, the soil layer 29 is laminated at a predetermined thickness, and the soil layer 29 is stacked on the soil layer 29 in a manner of stacking the soil layer 29 again on the net 30 while being stacked thereon. Soil layer 29 is not to flow down or collapse, the outer circumferential surface is covered with a cover member 31 made of non-woven fabric, wire mesh, etc., the outer circumferential surface of the cover member 31 is mixed in a certain ratio of ocher, glutinous rice paste, lime, etc. The finished binding layer 32 is applied to a predetermined thickness so that the multi-stage soil layer 29 stacked inside is maintained firmly without being lost.

3, 5, and 6, the weir structure 25 is formed in the upper surface is flat, the drainage passage 27 is formed along the middle portion of the upper surface portion and the lower portion of the portion formed with the drainage passage 27 A plurality of drain pipes 28 are installed, the upper portion of each of the drain pipes 28 is connected to the lower portion of the drainage passage 27 in a state buried in the inside of the weir structure 25 and the lower structure of the weir structure 25 It is located above the storage space 4 of the cultivation space portion 2 in a state of protruding outward the inner side of the water collected in the drainage passage 27 is to be stored in the storage space 4 through the drain pipe 28. .

In addition, the weir structure 25 is a roof structure connecting frame 33 is fixed to the portion adjacent to the drainage passage 27 along the inner surface portion of the upper surface portion as shown in Figure 5 and the roof structure connecting frame 33 A plurality of fitting installation pipes 34 are fixedly attached to the inner surface of the shell at regular intervals so that the outer end portions of the roof frame 45 of the roof structure 42 are inserted into and fixed to the fitting pipes 34. The outer surface of the blocking film 44 provided on the roof structure 42 is fixed to the outer surface of the roof structure connecting frame 33, the outer end portion of the fixing pad 35 The lower end portion is positioned inside the drainage passage 27 in a fixed state so that water flowing along the blocking film 44 of the roof structure 42 when raining is introduced into the drainage passage 27.

In addition, the roof structure connecting frame 33 is a plurality of fixed holding pillars 36 are fixedly installed vertically downward at a predetermined interval on the lower surface portion, and the concrete member 37 is integrally formed under each of the fixed holding pillars 36. It is provided, but the fixing column 36 and the concrete member 37 is installed in the state embedded in the weir structure 25 is to be installed stably fixed to the roof structure connecting frame 33 does not flow.

Meanwhile, as shown in FIG. 6, the weir structure 25 is provided with an anti-breathing means 38 for external protection and control, and the anti-wetting means 38 is buried along the inside of the weir structure 25. Spring connected to the outer end of each branch pipe 40 and the plurality of branch pipes (40) installed to protrude outwardly of the weir structure (25) branchedly connected to the protection pipe (39) and the protection pipe (39) It is composed of a cooler (41) to supply a variety of pesticides to the anti-corrosion pipe (39), which is connected to the chemical liquid storage tank (not shown) and the chemical liquid supply pump (not shown) in which the conventional pesticide, disinfectant, etc. are stored The sprinkler 41 installed in each branch pipe 40 is sprayed with an antifouling agent to the outside of the weir structure 25 to prevent the prevention and control.

The roof structure 42 is a portion covering the open upper portion of the cultivation space (2) as shown in Figures 1 to 3, 5, 6, 9 to form a roof, frame frame 43 and the frame frame Consists of the blocking film 44 covering the upper portion of 43 and the outer end portion of the frame frame 43 is fixed while being raised to match the upper surface portion of the weir structure 25 and the outer end portion of the blocking film 44 The lower end portion is located inside the drainage passage 27 so that water flowing along the blocking film 44 flows into the drainage passage 27.

The frame frame 43 is composed of a plurality of arched roof frame 45 is positioned at a predetermined interval before and after and a straight connection frame 46 for connecting the plurality of arched roof frame 45 positioned before and after, the width of the plantation In this wide case, as shown in Figs. 1 to 3, the frame frame 43 is extended by connecting the plurality of roof frames 45 in the left and right transverse directions, and in the case where the width of the plantation is narrow, As described above, the framing frame 43 is formed by only one row of arched roof frames 45 positioned in front and rear rows.

The frame frame 43 is a roof structure connecting frame 33, the outer end portion of the roof frame 45 located in the outer portion is fixed to the inner portion of the upper surface of the weir structure 25, as shown in Figure 5 The fitting frame is inserted in accordance with each of the fittings 34 so as to be fastened, and the frame frame 43 is vertically at regular intervals on the ground of the plantation (3) as shown in Figure 1, 3, 6 It is supported by a plurality of fixed support columns 8 so as to prevent the center portion of the roof structure 42 from being collapsed by snow, rain, or the like.

In addition, the blocking film 44 is made of a synthetic resin material such as hard film or vinyl and is to be covered on the upper portion of the frame frame 43 and the outer end portion is fixed to the outer surface of the roof structure connecting frame 33. The lower end portion is positioned inside the drainage passage 27 in a fixed state by the pad 35 so that water flowing along the blocking film 44 of the roof structure 42 when raining flows into the drainage passage 27. In the state in which the lower end portion of the barrier film 44 of the roof structure 42 is pulled out from the fixing pad 35, the inside of the cultivation space 2 is ventilated.

On the other hand, when the frame frame 43 is configured as an extension type in which a plurality of roof frame 45 is connected to the left and right, rain gutters as shown in Figures 3 and 6 in the bone portion formed between each roof frame 45 The 47 is fixedly installed to penetrate the outside of the blocking film 44, and the upper portion of the auxiliary drain pipe 48 communicates with the lower portion of the rain gutter 47, and the lower portion of the auxiliary drain pipe 48 is a cultivation space part ( Located in the upper portion of the storage space (4) of 2) to collect the rainwater and the like collected in the bone portion of the roof structure 42 to the storage space (4) through the rain gutter 47 and the auxiliary drain pipe (48).

The action of the present invention is as follows.

In the case of the construction of an environmentally friendly greenhouse structure (1) for the present invention having a stable and smooth supply of agricultural water and a high cooling and heating efficiency, such as heavy snowfall, rainfall, typhoon, etc. And digging the reservoir space 4 to a predetermined depth along the outer periphery of the cultivated land 3 to provide a cultivation space 2 so that a certain amount of agricultural water is stored in the reservoir space 4, and FIGS. 3 and 3. As shown in FIG. 4, a plurality of corrugated pipes 5 having a plurality of holes 6 perforated across the plantation 3 are installed at predetermined intervals in the ground of the plantation site 3, but both ends of the corrugated pipe 5 are Agricultural water which is installed to protrude outward through the upper side of the storage space 4 and is not absorbed by the crops of the agricultural water supplied to the planting area 3 is corrugated through the hole 6 perforated in the corrugated pipe 5. 5) seeping inside It is to be sent to the storage space (4), the storage space 4 is installed at one or a plurality of water barriers (15) provided with a filter 16 at a predetermined interval and the pump installation space provided in the storage space (4) The water in the storage space 4 located at one side of the pump installation space 18 through the circulation pump 17 of the unit 18 is sucked into the suction pipe 19 to be located at the other side of the pump installation space 18. By circulating in a manner to send to the storage space (4) so that the water stored in the storage space (4) by the circulation pump 17 is circulated through the filter 16 provided in the water barrier bank (15) do.

Next, as shown in Figures 1 to 3, along the outer periphery of the storage space 4 of the cultivation space portion 2 by stacking the soil at a certain height while constructing a weir structure (25) stacked in the form of weir cultivation space The wall structure of the part 2, but the weir structure 25 is a multi-stage in such a way that the net 30 is placed on the laminated soil layer 29 to a predetermined height, and the soil layer 29 is stacked again on it. Form a soil layer 29 of the outer peripheral surface is covered with a cover member 31 made of non-woven fabric, wire mesh, etc. The outer circumferential surface of the cover member 31 is a finishing binding layer mixed with a certain ratio of ocher, glutinous rice paste, lime (32) is applied to a predetermined thickness so that the multi-stage soil layer (29) stacked inside to maintain a state of being firmly stacked without being lost by rain water, etc., the door 26 on one side of the weir structure (25) Formed to allow access to the interior of the cultivation space (2) In addition, the upper surface portion of the weir structure 25 is formed flat and the roof structure 42 by forming a drainage passage 27 in the middle portion of the upper surface portion of the weir structure 25, as shown in Figs. Rainwater flowing along the water is collected in the drainage passage 27, and the lower portion of the drainage passage 27 is located in the upper portion of the reservoir structure 25, the lower portion of the drain pipe located in the upper portion of the reservoir space (4) By connecting a plurality of (28) to the water collected in the drainage path 27 is stored in the storage space (4) through the drain pipe 28 to be recycled.

In addition, the roof is formed on the open upper portion of the cultivation space (2) by covering the roof structure (42) consisting of the frame frame (43) and the barrier film (44), as shown in FIG. The frame frame 43 is formed by connecting the plurality of arched roof frames 45 to the connection frame 46, and the plurality of roof frames 45 are continuously formed in the horizontal and horizontal directions according to the size of the plantation 3. The frame frame 43 is extended so as to be connected, and the roof structure connection frame 33 is fixedly installed on the inner surface of the upper surface of the weir structure 25 as shown in FIGS. 5 and 6. The outer end portions of the roof frame 45 located at the outer portion of the frame frame 43 are fixedly fastened to the plurality of fitting installation tubes 34 fixedly installed on the inner side of the 33, and the plantation ( 3) There is a certain interval on the ground By fixing a plurality of support column (8) to support the frame frame 43 of the roof structure 42 from the bottom to prevent the center portion of the roof structure 42 to collapse by snow, rain, etc., The upper part of the frame frame 43 covers a blocking film 44 made of a synthetic resin material such as hard film or vinyl, and an outer end portion of the blocking film 44 is fixed to the outer surface of the roof structure connecting frame 33 ( 35) and the lower end thereof is positioned inside the drainage path 27 so that water flowing along the blocking film 44 of the roof structure 42 in the rainy day flows into the drainage path 27, and the roof structure during ventilation. The lower portion of the blocking film 44 of (42) is rolled upward while being pulled out from the fixing pad 35 so that the inside of the cultivation space 2 is ventilated.

On the other hand, the weir structure 25 is provided with a means for prevention and prevention 38 for prevention and prevention, as shown in Figure 6, buried the prevention pipe 39 along the inside of the weir structure 25 and the A plurality of branch pipes 40 connected in a branched manner to the pipe 39 to protrude outward of the weir structure 25 is connected to a sprinkler 41 at an outer end thereof so as to connect a conventional chemical liquid storage tank (not shown). ) And chemicals supply pumps (not shown) to the anti-corrosive agent, sterilizers, etc. to the anti-corrosion pipe 39 and sprayed to the outside of the weir structure 25 through the sprinkler 41 installed in each branch pipe (40) Preventive measures and controls should be taken.

1. Greenhouse Structure 2. Cultivation Space
3. Plantation 4. Reservoir
5. corrugated pipe 6. hole
7. Non-woven fabric 8. Supporting column
9. Heat storage panel 10. Wire
11. Heat storage material 12. Finishing material
13. Discharge pipe 14. Connecting leg
15. Cbank Dam 16. Filter
17. Circulation pump 18. Pump installation space
19. Suction line 20. Supply line
21. Auxiliary discharge pipe 22. Auxiliary circulation pump
23. Circulation pipe 24. Opening and closing valve
25. Weir Structures 26. Doors
27. Drainage 28. Drainage
29. Soil layer 30. Mesh
31. Cover member 32. Finishing layer
33. Roof structure connecting frame 34. Fitting installation pipe
35. Fixing pad 36. Fixing column
37. Concrete member 38. Means for protection
39. Prevention pipe 40. Branch pipe
41.Sprinkler 42.Roof Structure
43. Frame frames 44. Barriers
45. Roof frame 46. Connecting frame
47. Rain gutters 48. Auxiliary drainage pipe

Claims (13)

A plantation area 3 on which crops are cultivated is provided, and a reservoir space 4 is formed in which water is stored in the ground in a state surrounded by an outer circumference of the plantation area 3, and the filter for filtering is stored in the reservoir space 4. One or a plurality of water barriers (15) provided with a circulating pump (17) is installed in the cultivation space (2), the reservoir water is to be filtered and circulated, and weir shape stacked by stacking soil The structure of the wall around the circumference of the storage space (4) to the predetermined height to surround the cultivation space (2) to form a wall and on one side the door (26) for entry into the cultivation space (2) The upper surface portion is provided with a drainage passage 27 is formed along the center portion and the drainage passage 27 is connected to a plurality of drainage pipes 28 so that the water collected in the drainage passage 27 accumulates in the storage space 2 Weir structure 25 to drain to space 4, Consists of the frame frame 43 and the blocking film 44 covering the upper portion of the frame frame 43 and covers the open upper portion of the cultivation space (2) to form a roof, but the outside of the frame frame 43 The end is fixedly installed while being raised in accordance with the upper surface portion of the weir structure 25 and the lower end of the outer end portion of the barrier film 44 is located inside the drainage passage 27 so that water flowing along the barrier membrane 44 is drained ( 27) an eco-friendly greenhouse structure for agriculture, characterized in that consisting of a roof structure (42) to be introduced into.
According to claim 1, wherein the plantation (3) has a plurality of corrugated pipes 5 are embedded in the ground transversely across the plantation (3), the corrugated pipe (5) is a plurality of holes (6) perforated The outer peripheral surface is wrapped in a non-woven fabric (7), both ends of the corrugated pipe (5) is an environmentally friendly greenhouse structure for agriculture, characterized in that it is installed to be exposed to the outside through the upper surface of the reservoir space (4).
The roof structure according to claim 1 or 2, wherein the plantation (3) has a plurality of support columns (8) fixed vertically on the ground at regular intervals, and the plurality of support columns (8) are installed on top. The frame frame 43 of 42 is supported to support the lower portion, and the heat storage panel 9 is provided between each of the plurality of support column (8), each of the heat storage panel (9) has two support columns. 8 is provided with a wire 10 enclosing between the inside of the wire 10 is filled with a heat storage material 11 for heat storage and the outside of the wire 10 filled with the heat storage material 11 is a finishing material. Eco-friendly greenhouse structure for agriculture, characterized in that the coating (12) to a predetermined thickness.
According to claim 1, wherein the storage space (4) is provided with a discharge pipe (13) buried outward through the lower portion of the weir structure (25) on one side upper portion with the upper portion is opened. A connection leg 14 is placed at an upper portion of the door 26 of the 25, and the storage space 4 is provided with a pump installation space 18 in which a circulation pump 17 is installed. The suction pipe 19 provided in the circulation pump 17 is configured to suck water from the storage space 4 located at one side of the pump installation space 18 and the supply pipe 20 provided in the circulation pump 17. The water is supplied to the water storage space 4 located on the other side of the pump installation space 18 so that the water stored in the water storage space 4 is circulated by the circulation pump 17, the water barrier bank 15 Filtration is circulated through the filter 16 provided in the, the circulation pump 17 is connected to the auxiliary discharge pipe 21 is installed The auxiliary discharge pipe 21 penetrates the weir structure 25 and is installed outside of the greenhouse structure 1 so that when the water level of the storage space 4 is increased, the secondary structure 21 through the auxiliary discharge pipe 21. Eco-friendly greenhouse structure for agriculture, characterized in that to discharge the water to the outside.
According to claim 1 or 4, wherein the storage space (4) is provided with an auxiliary circulation pump 22 in the pump installation space 18, the auxiliary circulation pump 22 is the upper surface portion of the plantation (3) It is connected to the circulation pipe 23 is installed in a zigzag form to supply the water in the reservoir space 4 to the circulation pipe 23, the circulation pipe 23 is a tube whose outer peripheral surface is painted in black one end The other end is connected to the auxiliary circulation pump 22 and the other end is positioned at the upper portion of the water storage space 4 and is controlled by the on / off valve 24. 23 is absorbed by operating the auxiliary circulation pump 22 in the state in which the open-close valve 24 is opened, the low-temperature water of the storage space (4) stored in the ground along the circulation pipe 23 is continuously circulated Cooling operation, and the water stored in the circulation pipe 23 is circulated in winter Close the on-off valve 24 and stop the operation of the auxiliary circulation pump 22 so that the water inside the circulation pipe 23 warmed by sunlight absorbs the water inside the agricultural use, characterized in that Eco-friendly greenhouse structure.
According to claim 1, wherein the weir structure (25) has a longitudinal cross-sectional shape of the lower end of the narrow trapezoidal shape toward the top, but the compaction of the soil layer (29) to a predetermined thickness and the mesh 30 on the soil layer (29) The soil layer 29 is laminated so that the soil layer 29 is stacked in a multi-stage manner in such a manner that the soil layer 29 is laminated on the cover again so that the soil layer 29 does not fall or collapse, and the cover member 31 is covered on the outer circumferential surface thereof. The outer circumferential surface of the cover member 31 is applied to the finishing binding layer 32 is an eco-friendly greenhouse structure for agriculture, characterized in that the multi-stage soil layer 29 stacked on the inside is maintained without being lost.
The method of claim 6, wherein the cover member 31 is composed of a non-woven fabric and a wire mesh, the finishing binding layer 32 is an eco-friendly greenhouse structure for agriculture, characterized in that the mixture of ocher, glutinous rice paste, lime in a certain ratio.
The drain pipe 28 is connected to the lower portion of the drainage passage 27 with the upper portion embedded in the weir structure 25, and the lower portion protrudes outside the inner side of the weir structure 25. Eco-friendly greenhouse for agriculture, characterized in that located in the water storage space 4 of the cultivation space portion 2 in the state is collected in the drainage passage 27 is stored in the water storage space 4 through the drain pipe 28 structure.
According to claim 1 or 6, The weir structure 25 is a roof structure connecting frame 33 is fixed to the portion adjacent to the drainage passage 27 along the inner portion of the upper surface and the roof structure connecting frame ( A plurality of fitting installation pipes 34 are fixedly attached to the inner surface of the housing 33 at a predetermined interval so that the outer ends of the roof frames 45 of the roof structure 42 are inserted into the fitting pipes 34. The roof structure connecting frame 33 has a plurality of fixing columns 36 fixedly installed vertically downwards at a predetermined interval on a lower surface thereof, and a concrete member 37 at the lower portion of each fixing column 36. ) Is provided integrally, but the fixed support 36 and the concrete member 37 is installed in the state embedded in the weir structure 25 is to be fixed to the roof structure connecting frame 33 is not installed flow Agriculture characterized by Eco-friendly greenhouse structure.
According to claim 1 or 6, wherein the weir structure 25 is provided with a protective means 38 for external protection and control, the protective means 38 is buried along the inside of the weir structure (25) The plurality of branch pipes 40 and branch pipes 40 and protruding outwardly of the weir structure 25 and connected to the outer end pipes of the branch pipes 40. Eco-friendly greenhouse structure for agriculture, characterized in that consisting of a sprinkler (41).
According to claim 1, The frame frame 43 is a straight connection frame 46 for connecting the plurality of arched roof frame 45 positioned at a predetermined interval before and after and the plurality of arched roof frame 45 positioned before and after Consisting of, but the frame frame 43 is formed by only one row of arched roof frame 45 positioned in front and rear row or by connecting the plurality of roof frames 45 in a horizontal and horizontal direction continuously so that the frame frame 43 is expanded Eco-friendly greenhouse structure for agriculture, characterized in that it is.
According to claim 1, wherein the blocking film 44 is made of a hard film or vinyl material and the outer end portion is fixed to the outer surface of the roof structure connecting frame 33 is installed along the inner circumference of the upper surface of the weir structure 25 Eco-friendly for agriculture, characterized in that the lower end is located inside the drainage passage 27 in a state of being fitted by the fixing pad 35 is installed so that water flowing along the blocking film 44 flows into the drainage passage 27. Greenhouse structure.
According to claim 1, The frame frame 43 is a straight connection frame 46 for connecting the plurality of arched roof frame 45 positioned at a predetermined interval before and after and the plurality of arched roof frame 45 positioned before and after Consisting, the frame frame 43 is extended by connecting the plurality of roof frames 45 in the left and right and in a continuous direction, the rain gutter 47 is formed in the bone portion formed between each roof frame 45. The upper part of the auxiliary drain pipe 48 communicates with the lower part of the rain gutter 47 and is fixedly installed while penetrating to the outside of the blocking membrane 44, and the lower part of the auxiliary drain pipe 48 is a reservoir of the cultivation space part 2. Eco-friendly greenhouse for agriculture, characterized in that the rain water collected in the valley of the roof structure 42 is sent to the storage space (4) through the rain gutter 47 and the auxiliary drain pipe (48) located in the upper space (4) structure.

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