KR102085248B1 - Prevention of disaster and higher insulation green house - Google Patents

Abstract

Disaster-resistant high-insulation vinyl house according to an embodiment of the present invention is a circular steel pipe, one end is coupled to the other end of the first spacer, the first spacer is formed to surround a portion of the circular steel pipe, spaced apart from each other Spacer stool having an intermediate insertion groove and an internal insertion groove formed therein, an elastic rubber tube which is inserted into the intermediate insertion groove while being wound in the intermediate vinyl to fix the intermediate vinyl, and inserted into the internal insertion groove while being wound in the inner vinyl An elastic rubber tube capable of fixing the inner vinyl, one end is coupled to the second spacer formed to surround the other part of the circular steel pipe, the other end of the second spacer, the vinyl fixing rod and outer vinyl having an outer vinyl insertion groove It is inserted into the insertion groove in a wound state to include an elastic rubber tube that can fix the outer vinyl.

Description

Prevention of disaster and higher insulation green house}

When growing plants in the open field, harvesting is possible under the appropriate temperature and sunlight in summer, but it is impossible to grow the plants in winter when the temperature is low. Plants can be grown in a greenhouse in accordance with temperature and growing conditions, but the cost of maintaining the temperature to meet the growing conditions is enormous because vinyl has a low thermal insulation effect for photosynthesis through sunlight.

In order to solve the problem of poor insulation efficiency of the vinyl house, in which a 1 / 4-inch diameter galvanized steel pipe is covered with an arc of a frame, the first frame is covered on the first frame and spaces are formed at regular intervals. Another 1 / 4-inch frame is covered with vinyl and double and triple vinyl houses to increase insulation efficiency and reduce heating costs. However, because the 1 / 4-inch galvanized steel pipe is structurally weak such as snow load and wind load, it does not endure the snow load of more than 30 centimeters and cannot withstand the strong wind of more than 30 meters per second.

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Glass greenhouses are very good for the wavelength of the photosynthetic band suitable for growing plants, but the cost of the glass and the frame for fixing the glass is high, and the life of the glass is semipermanent, but it is fragile and shields high temperature in the summer. In order to use low-emissivity (roy) glass in order to have a problem without economics.

Polycarbonate has the advantage that it is not broken by impact like glass and is commercialized as a multi-wall consisting of several air layers in the middle, but it has a disadvantage that it is expensive than glass and has a shorter lifespan than glass, so it is applied only to special purposes.

Vinyl is the most commonly used in the vinyl house because it is the lowest price compared to glass or polycarbonate multiwall and is suitable for photosynthesis, but it is widely used. It is easy to be torn on, and it is difficult to withstand the snow load. Especially, most of the frames serving as the support of the vinyl house bend the 1/4 and 1/2 inch round steel pipes and use the frames intertwined with the support of the intervals. In the region, crops are inflicted every year, and so are typhoons.

In the case of a vinyl house that grows some crops, such as strawberries, three frames are spaced at regular intervals to reduce heating costs, and strawberries are grown in a three-ply plastic house covered with three layers of vinyl on top of them. It is vulnerable and destroyed by strong winds and snow loads, causing severe crop damage every year.

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According to an embodiment of the present invention, while artificially constructing the optimum conditions such as temperature, humidity, sunlight, moisture, nutrients such that plants can be best grown and harvested, the temperature is compared to the initial installation cost to construct the most economical cultivation environment. We provide a high-resistance-type high-insulation vinyl house that can optimize the break-even of harvest and selling price according to the cultivated items compared to the total cost including the maintenance cost such as sunlight.

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Disaster-resistant high-insulation vinyl house according to an embodiment of the present invention is a circular steel pipe, one end is coupled to the other end of the first spacer, the first spacer is formed to surround a portion of the circular steel pipe, spaced apart from each other Spacer stool having an intermediate insertion groove and an internal insertion groove formed therein, an elastic rubber tube which is inserted into the intermediate insertion groove while being wound in the intermediate vinyl to fix the intermediate vinyl, and inserted into the internal insertion groove while being wound in the inner vinyl An elastic rubber tube capable of fixing the inner vinyl, one end is coupled to the second spacer formed to surround the other part of the circular steel pipe, the other end of the second spacer, the vinyl fixing rod and outer vinyl having an outer vinyl insertion groove It is inserted into the insertion groove in a wound state to include an elastic rubber tube that can fix the outer vinyl.
The vertical frame coupled to the circular steel pipe to form a column, the gable roof frame to form a roof and may be further formed to be connected to one end is coupled to the vertical frame and the other end is connected to the gable roof frame.
The connecting frame can be formed in a “Y” shape to be connected with the gable roof frame of a nearby vinyl house to be connected to a nearby vinyl house.
It may further include a truss connected to the gable roof frame to support and reinforce the gable roof frame to withstand snow and strong winds.
It further includes a multi-wall which is lifted by a motor to open and close the side of the vinyl house, the multi-wall may be formed of a material that transmits only the wavelength band required for photosynthesis of the plant in the external direct sunlight.
A terminator bolt formed at one end of the circular steel pipe so as to be coupled to the circular steel pipe coupling module and a circular steel pipe coupling module including a nut pocket in which a plurality of nuts are inserted and formed to surround the circular steel pipe, and the terminator expanded through the terminator bolt And a terminator including a terminator, a terminator nut interposed between the terminator bolt and the nut, and a terminator nut interposed between the terminator bolt and the nut. The circular steel pipe coupling module and the terminator are coupled to each circular steel pipe by x, y and Can be combined with the z axis.

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The round steel pipe frame is a frame that constructs truss structures such as plant factory, smart farm, green house, plastic house, cage, pig house, barn, and martha without restriction to a certain height of the side wall and withstands strong winds and snow loads. When non-experts assemble, it is possible to construct a competitive and economical structure compared to the existing three-frame triple vinyl house.

By installing double, triple vinyl or woven vinyl at regular intervals and assembling a multi-wall open / close ventilation window, the green / vinyl house can save heating costs with higher insulation than the existing three-frame triple vinyl house. Can be configured.

1 is a view of assembling a single-dong, interlocking three-ply vinyl house without bending a round steel pipe.
Figure 2 is a view of assembling the vertical column, beam and gable circular steel pipe on the ground plate embedded in the ground.
3 is a diagram in which outer vinyl and intermediate vinyl inner vinyl 3-ply vinyl are installed with a spacer and a span elastic rubber tube in one circular steel pipe frame.
Figure 4 is a perspective view of a three-ply vinyl / green house with a multiwall vertical opening and closing vent window.
5 is a perspective view and an exploded view of the detailed structure of the vertical steel pipe and the orthogonal circular steel pipe and stud reinforced.
Figure 6 is a perspective view of the x, y, z orthogonal and free-angle circular steel tube assembled through the ball.
7 is a perspective view of a truss structure stud reinforced with a wide vinyl house long span.
8 is a perspective view of a vinyl / green house assembled with a round steel tube truss structure having a very high side wall height.

1 is a view of assembling a single-dong, interlocking three-ply plastic house without bending a round steel pipe, Figure 2 is a view of assembling a vertical column, beam and gable circular steel pipe on the base plate embedded in the ground, Figure 3 is one circular The outer and intermediate vinyl inner vinyl 3-ply vinyl is installed with spacers and chordal elastic rubber tubes on the steel pipe frame. FIG. 4 is a perspective view of a 3-ply vinyl / green house with a multiwall vertical opening and closing ventilation window, and FIG. Fig. 6 is a perspective view and an exploded view of the detailed coupling structure and stud reinforced circular steel pipe vertical column and orthogonal circular steel pipe, Figure 6 is a perspective view of assembling x, y, z orthogonal and free angle circular steel pipe through the ball, Figure 7 is a wide plastic house long span Fig. 8 is a perspective view of a round steel tube truss structure vinyl / green house assembled with a very high side wall height.
1 to 8, the circular steel pipe constituting the frame structure in order to assemble in a simple structure a high-temperature resistant vinyl house 18, which can withstand high winds of 30 meters or more and snow loads of 30 centimeters or more per second. 1) The diameter of 1/2 inch, larger than 1/4 inch and thick, for example, the thickness of the 48.6 mm diameter round steel pipe (1) by adjusting the interval and forming the trusses (45,46) to create a green house with a long span Can compose and withstand snow and strong winds.
In order to cultivate plants by minimizing the winter heating costs with low temperature during the four seasons, the air layer is constructed by installing the outer vinyl (6), the middle secret (11) and the inner vinyl (12) in one frame at regular intervals to reinforce the insulation. One green house can be constructed.
In order to create an atmosphere that can increase the cultivation efficiency by optimizing the environment and changing conditions of plant cultivation due to the change of season at the minimum cost, the multi-wall (19) ventilation windows composed of polycarbonates (20, 54, 55 may be opened and closed to maintain room temperature in a thermal insulation thermal insulation state.
The existing vinyl / green house, which is assembled by bending 1 / 4-inch and 1 / 2-inch round steel pipes, has low side walls, which means that agricultural machines cannot work inside the vinyl / green house. Because it covered the plastic with orthogonal wires, it could not withstand a snow load of 30 centimeters and collapsed, and it could not withstand strong winds of 30 meters per second. To solve these problems, for example, a 48.6 mm round steel pipe vertical frame (8) is inserted into the base fixing plate (9) and the orthogonal round steel pipe (16) to the connecting frame (15) for assembling the gable roof frame (10) at a 120 degree angle. By assembling through) and assembling the green house frame with the symmetric gable roof and the connecting frame (15), it is possible to assemble the disaster-resistant high-insulation vinyl house (18) having an appropriate height of the side wall into which agricultural machinery can enter.
When assembling the interlocking type by connecting another copper to the disaster-resistant high-insulation vinyl house 18, connect it to the lateral sinus with the "Y" shaped connecting frame 17, assemble the vertical frame 8, and make two horizontal orthogonal It is possible to assemble the disaster-resistant high-insulation vinyl house 18 by connecting the steel pipe.
The ventilation windows of the high-resistance-type high-insulation vinyl house (18) of three-ply vinyl (6, 11, 12) in a single spaced steel pipe (1) has a predetermined space and is insulated. Unlike the ventilation window, it maintains high insulation and needs to be opened and closed only when necessary, so instead of rolling up the vinyl, the multi-wheel (19) is lifted up and down to open and lower (21). 22) The ventilation window 20 is operated by opening and closing the multiwall 19 in the multiwall window frame 29.
The polycarbonate multiwall 19 transmits only the wavelength band 24 required for photosynthesis of the plant that shields infrared rays from the external direct sunlight 23 to irradiate light to the room and insulate the heat rays together with the triple vinyl house. Ventilation windows can be opened and closed.
Assemble the terminator (27) parts at the end of the circular steel pipe (1), and the nut pocket (42) into which the circular steel pipe coupling module (40) and two nuts are inserted in the middle of the circular steel pipe (1). ) And the round steel pipe (1) orthogonal to each other and assembled in the x, y and z directions.
The terminator 27 part assembled at the end of the circular steel tube 1 passes the circular steel terminator bolt 31 through the hole of the terminator inclination ring 32 and passes through the terminator inflation portion 33 to prevent terminator negative rupture. When the terminator fixing nut 36 is tightened through the cover 34 or the terminator positive burst prevention cover 35, the circular steel pipe and the terminator bolt can be properly coupled.
Meanwhile, insert the nut pocket 42 into which the two terminator fixing nuts 36 are inserted into the circular steel pipe coupling module 40, wrap the circular steel pipe 1, and fix the circular steel pipe coupling module 4 with the fixing screw 43. When the terminator bolt 31 is assembled to this nut, the circular steel pipe 1 and the circular steel pipe can be orthogonally coupled x, y, z at any position of the circular steel pipe 1. After the first assembly, if two screws are fixed to the sides of the terminator burst prevention cover (34, 35), the circular steel pipe (1) and the circular steel pipe (1) is orthogonally coupled with an appropriate tensile force to form a circular steel pipe frame structure can do.
Insert the stud connecting part 44 into the circular steel tube intermediate cover module and assemble in the arbitrary position of the circular steel pipe (1), and then crimped and punched the studs (46) at both ends of the circular steel pipe of smaller diameter than the circular steel pipe (1) By assembling through the terminator cover fixing screw nail (39) to the stud connecting part, it is possible to assemble a structure reinforced with a truss structure to prevent twisting of the orthogonal circular steel pipe (1) and the circular steel pipe (1).
Round steel pipe (1) and round steel pipe (1) are assembled at x, y, z orthogonal coupling and free angle through nut holes in the terminator and ball connector (50) to form green / vinyl house frame, truss structure, door of various shapes , Partitions, etc. can be assembled.
Based on the high-insulation green / vinyl house frame of the present invention can be configured in the high-insulation disaster-type smart farm, as well as covering the net and cover the insulator roof can assemble a poultry farm, pigs, barns, horses, etc. It is possible to assemble various farms for breeding and to assemble various buildings such as fish farms.
In particular, various structures that can withstand snowfall in a snowy area can be easily supported on the web, designed to be easily assembled by non-professionals, and heated to green houses and vinyl houses that can be insulated with multiple layers of vinyl in one frame. Reduce costs, grow a variety of plants and raise animals.

As shown in Fig. 1 and Fig. 2, the steel pipe welded under the base fixing plate 9 is used to assemble the disaster-resistant green / vinyl houses 18 and 52 that can withstand high wind speeds of 30 meters or more and snow loads of 30 centimeters or more. The bottom of the ground (30) is fixed and installed, and the bottom of the circular steel pipe (1) vertical frame (8) is inserted into the vertical welded circular steel pipe on the base plate, and fixed to the side with a screw. Connecting frame 15 inserting the upper part of the vertical column into the expansion hole of the connecting frame 15, and inserting the orthogonal circular steel pipe 16 and the gable roof frame 10 to assemble the structure of the vinyl house: a specific example For example, a 48.6 mm (mm) outer diameter round steel pipe can be bent at an angle of 120 degrees and a 48.6 mm diameter circular steel pipe can be inserted at both ends, extending the inner diameter of the steel pipe to 49 mm, and 48.6 mm outside the bent portion. It is possible to assemble a disaster-resistant vinyl house structure that withstands strong winds and snow loads, assembled by a connecting frame 15 welded to a ring of 49 millimeters, into which a steel pipe of diameter can be inserted horizontally.

The installation space of the 2.3 mm thick circular steel pipe (1) is adjusted to the circular steel pipe (1) on the base fixing plate (9) and fixed with a screw in the vinyl house structure assembled with the connecting frame (15) according to the calculated load. 7, 9, trusses (45, 46) to form a green house with a long span to endure snow and put a base plate to withstand strong winds and to fix the vertical column to the base plate In order to withstand greater loads, the outer diameter is the same as 48.6 mm, but the thickness can be compensated by applying thick carbon steel round steel pipes of 3 mm and 4 mm thickness. It is preferable to use hot-dip galvanized steel pipes to prevent oxidation of all parts and round steel pipes of various thicknesses.

In order to cultivate plants by minimizing winter heating costs with low temperature during the four seasons, an air layer is installed at regular intervals with the outer vinyl (6), the intermediate vinyl (11) and the inner vinyl (12) installed in a single circular steel pipe (1). By reducing the heating cost by constructing a green house with reinforced insulation.

For example, about 50 millimeters of first and second spacers (2, 3) can be used to wrap a 48.6 mm outer diameter round steel pipe and insert it into grooves on opposite sides to assemble a half-round circular steel pipe and a vinyl insert at regular intervals. Cut into meter lengths and install them at appropriate intervals in any position of the round steel pipe,

Outer vinyl installation: After assembling the vinyl fixing rod (4) fixing the outer vinyl (6) to the second spacer (3), wrapping the vinyl with the elastic rubber tube (5) and inserting the vinyl fixing rod (4) into the vinyl Fix (6). The outer vinyl 6 may be a general vinyl, but using a woven vinyl reinforced with a woven cloth between the vinyl and the vinyl can assemble a vinyl / green house that is resistant to snow loads and strong winds and has a long service life.
The vinyl fixing rod 4 has an outer insertion groove, and the elastic rubber tube 5 in which the outer vinyl 6 is wound is inserted into the outer insertion groove.

Inner and intermediate vinyl installation: Spacer for double installation of the intermediate vinyl 11 and the inner vinyl 12 in the first spacer 2 on the opposite side assembled with the second spacer 3 on which the outer vinyl 6 is installed. Assemble the cap (7), wrap the intermediate vinyl (11) with the elastic rubber tube (5), assemble the intermediate vinyl (11) on the spacer cap (7), and then the inner vinyl (12) with the elastic rubber tube (5). By wrapping and assembling, it is possible to install triple vinyl (6,11,12) consisting of 130mm spacer space and 50mm intermediate insulation space in the round steel pipe (1). You can save money.
Here, the spacer carriage 7 includes an intermediate insertion groove and an internal insertion groove formed at heights spaced apart from each other. The elastic rubber tube 5 in which the intermediate vinyl 11 is wound is inserted into the intermediate insertion groove. The elastic rubber tube 5 in which the inner vinyl 12 is wound is inserted into the inner insertion groove.

Multi-Wall Ventilation Window: A multi-wall ventilation window (19) consisting of polycarbonates with several air layers to create an atmosphere that can increase planting conditions due to seasonal changes and optimize the environment with minimal cost. 20, 54, 55 are installed on the multi-wall window frame 29 and opened and closed by a gear reduction motor (22) to optimize the room temperature through the ventilation window in the thermal insulation thermal insulation of a triple or quadruple house. Can be maintained.

That is, the ventilation windows of the disaster-resistant high-insulation vinyl house 18 having three layers of vinyls 6, 11, and 12 in a single circular steel pipe 1 have a predetermined space and are insulated from each other. Unlike the ventilation window of the method, it maintains high insulation and can be opened and closed only when necessary, so instead of rolling up the vinyl, the 5-layer multiwall (19) is lifted up and down to open and close the gear (21). The ventilation window 20 is operated by opening and closing the multiwall 19 in the multiwall window frame 29 with the deceleration electric motor 22 structure. The polycarbonate multiwall 19 transmits only the wavelength band 24 required for photosynthesis of the plant that shields infrared rays from the external direct sunlight 23 to irradiate light to the room and insulate the heat rays together with the triple vinyl house. Ventilation windows can be opened and closed.

Difference from conventional vinyl house: The existing vinyl / green house, which is assembled by bending 1 / 4-inch and 1 / 2-inch round steel pipes, has low side walls, which means that agricultural machines cannot work inside the vinyl / green house and have a diameter. Since the small round steel pipe and the round steel pipe were covered with the plastic at right angles, they could not bear the snow load of more than 30 centimeters and collapsed, and there was a problem of not being able to withstand the strong wind of 30 meters per second. In order to solve these problems, the orthogonal round steel pipe (16) is connected to the connecting frame (15) in which the 48.6 mm round steel pipe (1) the vertical frame (8) is mounted on the base fixing plate (9) and the gable roof frame (10) is assembled at a 120 degree angle. Assemble the high-temperature insulation plastic house (18) with enough height of the side wall through which the green house frame can be assembled by assembling through and symmetric gable roof and orthogonal circular steel pipe connecting frame (15). do.

&Quot; Y " connecting frame (17) when assembling the interlocking type disaster-resistant high-insulation vinyl house in which another disaster-resistant high-insulation vinyl house (19) is connected to another disaster-resistant high-insulation vinyl house (18). By connecting to the side dong and assembling the vertical frame (8) and two horizontal orthogonal steel pipes can be assembled a high-resistance-type high-insulation vinyl house (18).

Assemble the terminator (27) parts at the end of the circular steel pipe (1), and the nut pocket (42) into which the circular steel pipe coupling module (40) and two nuts are inserted in the middle of the circular steel pipe (1). ) And the round steel pipe (1) orthogonal to each other and assembled in the x, y and z directions.

The terminator 27 parts assembled at the end of the round steel tube 1 pass the round steel terminator bolt 31 through the hole of the terminator inclination angle ring 32 and pass through the terminator inflation portion 33 to prevent terminator negative rupture. When the terminator fixing nut 36 is tightened through the cover 34 or the terminator positive burst prevention cover 35, the circular steel pipe 1 and the terminator bolt 31 can be properly coupled.

Meanwhile, the nut pocket 42 into which the two nuts 36 are inserted into the circular steel pipe coupling module 40 is wrapped, and the circular steel pipe 1 is wrapped, and then the circular steel pipe coupling module 4 is fixed with the fixing screw 43 and the terminator When the bolt 31 is assembled to this nut, the circular steel pipe 1 and the circular steel pipe 1 can be orthogonally coupled x, y, z at any position of the circular steel pipe 1. After the first assembly, if the two screws are fixed to the sides of the terminator burst protection caps (34, 35), the circular steel pipe (1) and the circular steel pipe (1) is orthogonally coupled with an appropriate tensile force to form a circular steel pipe frame structure Can be configured.

After inserting the stud connecting part 44 into the circular steel pipe coupling module 40 and assembled in the arbitrary position of the circular steel pipe (1), the ends of the circular steel pipe with a diameter smaller than the circular steel pipe (1) and crimped stud ( 46 is assembled to the stud connection part through the terminator cover fixing screw nail 39, it is possible to prevent the warp of the orthogonal circular steel pipe (1) and the circular steel pipe (1) and to assemble the structure reinforced with the truss structure.

Round steel pipe (1) and round steel pipe (1) as a terminator (27) and ball shape to the sphere (50) by assembling x, y, z orthogonal coupling and free angle through nut holes, green / vinyl house frame of various shapes Assemble truss structures, doors, partitions, and more.

Based on the high-insulation green / vinyl house frame of the present invention can be configured in the high-insulation disaster-type smart farm, as well as covering the net and cover the insulator roof can assemble a poultry farm, pigs, barns, horses, etc. It is possible to assemble various farms for breeding and to assemble various buildings such as fish farms.

In particular, various structures that can withstand snowfall in a snowy area can be easily supported on the web, designed to be easily assembled by non-professionals, and heated to green houses and vinyl houses that can be insulated with multiple layers of vinyl in one frame. Reduce costs, grow a variety of plants and raise animals.

1. Round steel pipe
2. First spacer
3. Second spacer
4. Vinyl fixing rod for fixing vinyl by inserting into spacer 1 and spacer 2
5. Elastic rubber tube
6. High elastic vinyl or woven vinyl or polycarbonate for exterior use
7. Spacer band to install intermediate vinyl and another piece of vinyl at regular intervals
8. Vertical frame 9. Foundation fixing plate
10 gable frame 11. Medium vinyl
12. Vinyl inside
13. Detailed drawing before assembling round steel tube, vinyl fixing spacer, chock, and flexible tube
14. Example of thermal insulation by installing 3-ply vinyl in one round steel pipe
15. Connecting Frame
16. Orthogonal Round Steel Pipe
17. "Y" shaped connecting frame
18. My disaster-type high-insulation vinyl house
19. Multiwall
20. Ventilation Window
21. opening and closing
22. Gear reduction electric motor
23. Direct sunlight (including infrared rays)
24. Wavelength bands required for plant photosynthesis
25. Detail view of disassembled parts before assembling the round steel tube terminator
26. Detailed drawing of the round tube terminator assembly process
27. Round steel tube terminator
28. Detail drawing of disassembled parts before assembling the round steel negative terminator
29. Multiwall window frame 30. Floor
31. Terminator bolts 32. Terminator inclination ring
33. Terminator Inflation
34. Terminator negative burst cover
35. Terminator positive burst cover
36. Terminator Fixing Nut
37. Terminator round steel pipe assembly process 38. Terminator assembly completed
39. Terminator cover fixing screw nail 40. Round steel pipe coupling module
41. Round steel tube coupling module cover 42. Nut pocket
43. Fastening screws 44. Stud fittings
45. Round steel stud connection module 46. Stud
50. Ball connector 51. Ball connector nut hole
52. Structure Green House
53. Polycarbonate Transparent Wall
54. Polycarbonate Side Wall Vents
55. Polycarbonate Roof Vents 56. Curtains

Claims (6)

Circular steel pipe;
One end portion includes a first spacer formed to surround a portion of the circular steel pipe;
A spacer holder coupled to the other end of the first spacer and having an intermediate insertion groove and an internal insertion groove formed at a height spaced apart from each other;
An elastic rubber tube inserted into an intermediate insertion groove while being wound in the intermediate vinyl to fix the intermediate vinyl;
An elastic rubber tube inserted into an inner insertion groove while being wound in the inner vinyl to fix the inner vinyl;
One end portion includes a second spacer formed to surround the other portion of the circular steel pipe;
A vinyl fixing rod coupled to the other end of the second spacer and having an outer insertion groove;
An elastic rubber tube inserted into the outer insertion groove in a state wound around the outer vinyl to fix the outer vinyl;
A circular steel pipe coupling module formed to surround the circular steel pipe and including a nut pocket into which a plurality of nuts are inserted; And
A terminator bolt formed at one end of the circular steel pipe so as to be coupled to the circular steel pipe coupling module, a terminator inflation portion penetrated through the terminator bolt, a terminator nut coupled to the terminator bolt, and interposed between the terminator bolt and the nut; A terminator comprising a cover surrounding the terminator inflation portion;
Including,
A disaster-resistant high-insulation vinyl house that combines each circular steel pipe in the x, y and z axes by combining the circular steel pipe coupling module and the terminator. The method of claim 1,
A vertical frame coupled to the circular steel pipe to form a column;
Roofing gable roof frame; And
Formed to be bent one end is coupled to the vertical frame and the other end is a disaster-resistant high-insulation vinyl house further comprises a connection frame connected to the gable roof frame. The method of claim 2,
The connection frame is a disaster-resistant high-insulation vinyl house formed in a “Y” shape so as to be connected to a gasket roof frame of a nearby vinyl house and connected to a nearby vinyl house. The method of claim 2,
The disaster-resistant high-insulation vinyl house further comprises a truss connected to the gable roof frame to support and reinforce the gable roof frame to withstand snow and strong winds. The method of claim 1,
It further includes a multi-wall lifted by a motor to open and close the side of the plastic house,
The multi-wall is a disaster-resistant high-insulation vinyl house formed of a material that transmits only the wavelength band required for photosynthesis of the plant from the outside of direct sunlight. delete

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