KR101938323B1 - Double-layered air green house with disaster tolerance and construction method thereof - Google Patents

Abstract

The present invention relates to a disaster resistant double layer air greenhouse and a construction method thereof. Ends of an outer air film and an inner air film are separately fixed respectively to an outer support frame and an inner support frame separated from each other. Thus, stress concentration which may be generated at the end of the inner and outer air films and a coupling part of an access facility is prevented, and self-shape modification of an air film or local modification of a partial section is easy. The disaster resistant double layer air greenhouse of the present invention comprises: a pair of outer support frames formed in an arch shape and arranged to be spaced apart from each other by a predetermined distance; a pair of inner support frames formed in an arch shape and arranged to be spaced apart from each other inside the outer support frames; an outer air film having a pair of front and rear ends fixed to an upper end of a pair of outer support frames to form an arcuate cross section; an inner air film having both front and rear ends fixed to an upper end of a pair of inner support frames to form an arcuate cross section, and forming a space part (S_2) between the inner air film and the outer air film; a side fixture fixedly installed on both ends of the pair of outer support frames and the pair of inner support frames to fix side ends of the outer air film and the inner air film, respectively; and a skirt film having an upper end coupled to an inner lower surface of the inner air film and a lower end formed to cover a part of an upper portion of the inner ground to seal a space between the inner air film and the ground.

Description

[0001] The present invention relates to a disaster type double-walled air-green house and a construction method thereof,

The present invention prevents the concentration of stresses that may occur at the end portions of the inner and outer air membranes and the joining portions of the entrance and exit facilities by separately fixing the end portions of the outer air film and the inner air film to the outer support frame and the inner support frame, This is a disaster type double-layered air green house which is easy to modify the self-shape of the air film or local correction of a certain section, and its construction method.

The air house is a structure that forms a certain space inside by injecting wind between the outer film and the inner film. It is widely used as a house for cultivating crops, a simple event facility, and a warehouse.

In the conventional air house as shown in Fig. 1, the air house is formed into a hemispherical dome shape having a rounded curved roof as a whole, and the entrance and exit facilities are installed directly to one or both ends of the air house to secure an entrance for user access (Patent No. 10-1672353).

However, when such a curved air house is fitted with a small straight entry door at one end of the air membrane, a very large local stress is generated at the joint of the air house and the entrance of the air house.

Such stress concentration phenomenon is particularly concentrated at the corners of the entrance facility, so that the film is often damaged at the corners.

On the other hand, in order to fix both ends of the air membrane to the ground, the air membrane was fixed with a bolt to a fixture fixed to the ground. Or a trench is formed along the outer periphery of the air house, and a fixing structure is formed by using a weight, a channel, a long bolt or the like in the trench, and the air membrane end is also inserted into the trench and the soil is filled with the trench.

However, the bolt fixing method damages the air film and durability.

The method of filling the air membrane end into the ground greatly increases the air and the construction cost due to the trench excavation process.

In general, it takes about six months for the air house to cover the air film such as a vinyl film on the outside and then to find the air film by itself and to have a stable shape. However, since the entire end of the air film is buried in the trench, it is difficult to self-correct the air film and it is difficult to maintain the stable shape. If the position of the air film is to be partially corrected, it is inconvenient to rework the entire trench section.

In order to solve the above-mentioned problems, the present invention provides an internal disaster type double air green house and method of constructing the same, which can prevent stress concentration phenomenon occurring at a joint portion between an air film and an entrance facility constituting an air green house I want to.

The present invention relates to a disaster-resistant double-layer air-green house which is free from damage to an air film by constituting an air film end portion on the ground and which is easy to construct and which can easily correct an air- Method.

According to a preferred embodiment of the present invention, there is provided an image forming apparatus comprising: a pair of outer support frames each formed in an arcuate shape and spaced apart from each other; A pair of inner support frames each formed in an arcuate shape and spaced apart from the inside of each of the outer support frames; An outer air layer having an arcuate cross section fixed at both ends of the pair of outer support frames; An inner air film which has an arcuate cross section and has opposite longitudinal ends each fixed to an upper end of a pair of inner supporting frames and forms a space S ₂ between the outer air film and the outer air film; A side fixture fixed to both ends of the pair of outer support frames and the pair of inner support frames to fix the side ends of the outer air film and the inner air film, respectively; And a skirt film which seals a space between the inner air film and the ground, the upper end being coupled to the lower inner side surface of the inner air film and the lower end to partially cover the upper portion of the inner ground film; Configured and the air pressure (P ₁₎ of the inner air layer inside (S ₁₎ into the space part (S ₂₎ within the disaster type double membrane air Green house is larger than the inner air pressure (P ₂₎ to provide.

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According to another preferred embodiment of the present invention, the height h ₁ of the outer support frame and the inner support frame is lower than the height h ₂ of the outer air film and the inner air film center, respectively. Provides a double membrane air green house.

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According to another preferred embodiment of the present invention, the side fixture is characterized in that the web is vertically bent at both ends of the lower flange, the upper flange is horizontally bent inward at the upper end of each web, And an urging member which is inserted through the outer surface of the web and presses and fixes the air membrane inserted into the fixed channel at one end.

According to another preferred embodiment of the present invention, there is provided an anti-disaster double air green house characterized in that a cushioning member is provided at an inner end of an upper flange of the side fixture.

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According to another preferred embodiment of the present invention, a mesh member is provided on each of the outer air film and the inner air film, and a fixing ring is provided on an outer side of the fixed channel of the side fixing member, I provide my disaster type double air green house.

According to another preferred embodiment of the present invention, there is provided a method for constructing the disaster type double-wall air green house, comprising the steps of: (a) rotating a plurality of helical files in the ground at both ends of the inner air film and the outer air film, A step; (b) installing a side fixture on the top of the helical file, and installing an inner support frame and an outer support frame at front and rear ends of the inner air film and the outer air film, respectively; (c) installing and fixing an inner air film on the inner support frame and the inner side fixture; (D) installing and fixing an outer air film to the outer support frame and the outer side fixture; The present invention provides a method of constructing an internal disaster type double air green house.

The present invention has the following effects.

First, the ends of the outer air film and the inner air film are fixed over the entire length to the mutually spaced outer support frame and inner support frame, respectively. Therefore, it is possible to prevent the stress concentration phenomenon that may occur at the end portion of the inner and outer air film and the coupling portion of the entrance and exit facility.

Second, since the inner air film and the outer air film are separately fixed to separate inner and outer support frames, maintenance is easy. In addition, the volume of the space formed between the inner air film and the outer air film can be set freely, and the heat insulating effect is extremely excellent.

Third, since the side fixture for fixing the end portion of the air membrane is exposed to the upper portion of the ground, the construction work of the air membrane or the mesh member installed outside the air membrane can be easily performed. Accordingly, since the end portion of the air film does not need to be buried in the trench, it is easy to construct the trench by omitting the trench formation and the soil filling operation. In addition, the self-shape of the air membrane can be easily corrected, and when the installation condition of the air membrane is partially corrected, the corresponding part can be easily re-activated.

1 is a perspective view showing a conventional air house;
FIG. 2 is a perspective view showing a disaster type double-layer air green house in the present invention. FIG.
3 is a sectional view taken along line A of Fig.
4 is a cross-sectional view of FIG. 2B;
5 is a cross-sectional view showing an end portion of an air film fixed to the ground;
6 is a perspective view showing a coupling relationship between the side fixture and the air film;
7 is a perspective view showing a coupling relationship between an air film and a fixture coupled to the support frame;
8 is a cross-sectional view showing the coupling relationship between the mesh member and the fastener;

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

FIG. 2 is a perspective view showing a disaster type double-layer air green house in the present invention, FIG. 3 is a sectional view taken along line A of FIG. 2, and FIG. 4 is a sectional view taken along line B of FIG.

As shown in FIGS. 2 to 4, the disaster type double air green house of the present invention comprises a pair of outer support frames 1 each formed in an arcuate shape and spaced apart from each other by a certain distance; A pair of inner support frames 2 each formed in an arcuate shape and spaced apart from the inside of each of the outer support frames 1; An outer air film 3 having front and rear ends fixed to the upper ends of the pair of outer support frames 1 to form an arcuate cross section; And an inner air film (4) having an arcuate cross section fixed to the upper ends of the pair of inner supporting frames ( ₂ ) and forming a space (S ₂ ) between the outer air film (3) and the front and rear ends; .

The present invention relates to an internal disaster type double air green house capable of preventing stress concentration phenomenon occurring at the coupling portion of the inner and outer air films (3, 4) and the entrance and exit facilities (6) will be.

In addition, since the end portions of the inner and outer air films 3 and 4 are exposed on the ground, it is easy to construct, and the inner shape of the air membranes 3 and 4 can be corrected and the inner- To provide a membrane air green house.

The outer support frames 1 are each formed in an arcuate shape and are arranged in pairs so as to be spaced apart from each other by a certain distance.

The pair of outer support frames 1 are located on the front and rear surfaces of the air green house. The outer support frame 1 is provided with a finishing panel 5 for closing the inside of the arched outer support frame 1 , And a finishing panel (5) may be provided with an entrance and exit facility (6) for entrance and exit. The access facility 6 may be provided with a door 61 or the like.

The inner support frames 2 are each formed in an arcuate shape, and a pair of the inner support frames 2 are arranged inside the outer support frames 1 so as to be spaced apart from the outer support frames 1 by a predetermined distance.

Both ends of the outer air film 3 are fixed to the upper ends of the pair of outer support frames 1, respectively.

Both ends of the inner air film 4 are fixed to the upper ends of the pair of inner supporting frames 2, respectively.

The outer air film 3 and the inner air film 4 each have an arcuate cross section.

A space S ₂ is formed between the inner air film 4 and the outer air film 3.

The front and rear ends of the inner and outer air films 3 and 4 are fixed to the inner and outer support frames 1 and 2 over their entire length, respectively.

Accordingly, the inner and outer air membranes 3 and 4 can prevent the damage due to the stress concentration that may occur at the end portion, and in some cases, the joint portion with the access facility 6 and the like.

The double membrane used in the conventional house is formed in such a manner that the air membrane itself is formed in two layers and the ends are fused and filled with air. This is expensive, and it is impossible to use agricultural vinyl. In addition, since the entire membrane must be replaced when the membrane is damaged, maintenance work is troublesome and uneconomical.

Therefore, in the present invention, the inner air film 4 and the outer air film 3 are fixed to the separate inner and outer support frames 1 and 2, respectively.

That is, the air film itself is not formed of a double membrane but the outer air film 3 and the inner air film 4, which are two air films, are separated by the outer supporting frame 1 and the inner supporting frame 2, .

The volume of the space S ₂ formed between the inner air film 4 and the outer air film 3 can be easily maintained because the inner air film 4 and the outer air film 3 are completely separated from each other, So that the heat insulating effect is very excellent.

A support rope 32 for supporting the outer air film 3 may be additionally provided on the outer side of the outer air film 3 in addition to the mesh member 8 to be described later.

The support ropes 32 can be formed in an arch shape like the outer air film 3, and a plurality of support ropes 32 can be installed so as to be spaced apart from each other.

The air pressure (P ₁₎ of the inner air layer (4) inside (S ₁₎ can be made larger than the configuration space portion (S ₂₎ of the internal air pressure (P _2).

The conventional double membrane was formed in two layers of the air membrane itself, and the shape was maintained by forming the inside of the air membrane with the air. Therefore, it is impossible to maintain the shape of the bilayer membrane when the membrane is damaged.

The inner pressure P ₁ of the inner air film 4 is maintained to be larger than the pressure P ₂ in the space S ₂ between the inner and outer air membranes 3 and 4, , 4) can be maintained. For example, P ₁ can be set at about 5 psi and P ₂ at about 4 psi.

Therefore, even if the air membranes 3 and 4 on one side are damaged, the use of the house is not hindered, and the damaged membrane can be repaired or replaced while using the house.

The height h ₁ of the outer support frame 1 and the inner support frame ₂ may be lower than the height h _{2 of the} center of the outer air film 3 and the inner air film 4 .

The present invention is characterized in that the outer support frame (1) is provided at the front and rear of the air green house to form a semi-cylindrical shape as a whole, so that the wind pressure load against wind loads is large before and after the air green house.

Therefore, the height of the outer support frame 1 and the inner support frame 2 on the front and rear sides is made low to minimize the pressure area against the wind load, thereby minimizing the damage caused by the wind load.

Fig. 5 is a cross-sectional view showing an end portion of the air film fixed to the ground, and Fig. 6 is a perspective view showing a coupling relationship between the side fixture and the air film.

5, the side ends of the outer air film 3 and the inner air film 4 are fixed to both ends of the pair of the outer support frames 1 and the pair of inner support frames 2 The side fastener 7 can be fixedly installed on the ground.

That is, the side fixtures 7 are fixed to the upper portion of the ground at both ends of the pair of outer support frames 1, so that the side end of the outer air film 3 can be fixed to the side fixtures 7.

A side fixture 7 is fixed to the upper portion of the ground at both ends of the pair of inner support frames 2 so that the side end of the inner air film 4 can be fixed to the side fixture 7.

The side fixtures 7 for fixing the end portions of the inner and outer air films 3 and 4 are exposed to the upper portion of the ground so that the installation work of the air membranes 3 and 4 and the net member 8 have.

In addition, since the end portions of the inner and outer air films 3 and 4 do not need to be buried in the trenches outside the air green house, the trench formation and the filling of the soil are omitted. Further, the self-shape of the air membranes 3 and 4 can be easily corrected, and if the installation state of the air membranes 3 and 4 is partially corrected, the corresponding portions can be easily re-activated.

A plurality of helical files 9 having threads formed on the outer circumferential surface of the side fixture 7 may be inserted into the ground and the side fixtures 7 may be fixed to the top of each helical file 9 by bolts, Can be fixed by the method of Fig.

5 and 6 and the like, the side fastener 7 is formed such that the web 712 is vertically bent at both ends of the lower flange 711 and the upper flange 713 Is inserted horizontally into the fixed channel 71 and is inserted through the outer surface of the outer web 712 of the fixed channel 71 and has one end inserted into the fixed channel 71, , And 4).

The side fastener 7 may be composed of a fixed channel 71 and a pressing member 72.

The fixed channel 71 is constituted by a lower flange 711, a pair of webs 712 and a pair of upper flanges 713, and the upper part is opened by opening the pair of upper flanges 713.

The pressing member 72 presses and fixes the air membranes 3 and 4 inserted into the fixing channel 71. [

The pressure member 72 has one end penetrating the outer web 712 of the fixed channel 71 to press the air membranes 3 and 4 inside the fixed channel 71.

The pressing member 72 may be composed of a bolt member 721 threaded through the outer web 712 of the fixed channel 71 and screwed into the web 712.

To this end, a through hole having a female screw hole may be formed on the inner side of the outer web 712 of the fixed channel 71 through which the bolt member 721 passes. Alternatively, a nut may be welded to one side of the through hole formed in the fixed channel 71 to screw the bolt member 721.

The bolt member 721 can press the air membranes 3 and 4 directly. The pressing force of the bolt member 721 is transmitted to the air membranes 3 and 4 so as to prevent the air membranes 3 and 4 from being damaged while firmly pressing the air membranes 3 and 4 with a wider area The fixing block 722 can be positioned between the air membranes 3 and 4 and one end of the bolt member 721. [

On the other hand, the air membranes 3 and 4 can wind the end sheaths in roll form and press them with the fixing block 722 to firmly fix the air membranes 3 and 4.

If the end portions of the air membranes 3 and 4 are short and the thickness of the winding portions is insufficient, the end portions of the air membranes 3 and 4 are wound with separate winding shims 31 and 41, 722, respectively.

When the ends of the air membranes 3 and 4 are fixed by the pressing of the fixing block 722 as described above, the installation and disassembly of the air membranes 3 and 4 are easy and the air membranes 3 and 4 are not damaged Excellent durability.

5, 6, and the like, a buffer member 73 may be provided at the inner end of the upper flange 713 of the side fastener 7.

When the air membranes 3 and 4 are caught by the inside of the upper flange 713 of the fixed channel 71 when the inner and outer air membranes 3 and 4 are fixed to the side anchor 7, (3, 4) may be damaged.

It is possible to prevent the air membranes 3 and 4 from being damaged by providing the buffer member 73 at the inner end of the upper flange 713 where the end portions of the air membranes 3 and 4 contact.

The buffer member 73 may be formed to have a U-shape so as to surround the end portion of the upper flange 713.

The buffer member 73 may be made of rubber or PE foam.

5, the upper end is coupled to the lower inner side surface of the inner air film 4, and the lower end is configured to partially cover the upper portion of the inner ground surface, A membrane 42 may be provided.

The end portions of the air membranes 3 and 4 are exposed on the ground, so that whether the air membranes 3 and 4 are sealed at the bottom may be a problem.

Therefore, the skirt film 42 is provided on the inner bottom surface of the inner air film 4.

It is sufficient that the skirt film 42 is formed to extend to a length that can partially cover the inner side ground portion.

As described above, since the air pressure inside the inner air film 4 can be made higher than that of the outside, the skirt film 42 is naturally adhered to the inner air film 4 side by the air pressure difference, have.

5 and 6, a net member 8 is provided on the upper side of the outer air film 3 and the inner air film 4, respectively, and a fixing channel 71 of the side fixing member 7 is provided, And the fixing ring 74 may be provided on the outer side so that the end of the net member 8 is coupled.

A net member 8 for protecting the air membranes 3 and 4 by supporting the loads of the air membranes 3 and 4 may be provided outside the air membranes 3 and 4.

The net member 8 can be easily installed by hanging the end portion of the fixing member 71 on the outer side of the fixing channel 71, that is, the fixing ring 74 provided on the outer side web 712 of the fixing channel 71.

The air membranes 3 and 4 and the mesh member 8 can be fixedly coupled to the side fixture 7, so that the structure is simple and easy to install.

The fixed ring 74 can be welded to the outside of the web 712 of the fixed channel 71. 6, the fixing ring 72 can be fixed to the bolt member 721 constituting the pressing member 72. In this case, the mounting and dismounting of the fixing ring 72 and the net member 8 It is easy.

The fixing ring 74 may be a carabiner which is easy to install and disassemble. The carabiner is provided with a spring-loaded opening and closing member so that the web member 8 can be easily attached and detached.

A plurality of fixing rings 74 may be provided so as to be spaced apart from each other along the longitudinal direction of the fixing channel 71. The ends of the fixing member 74 may be formed of a plurality of And fastened to the fixing ring 74.

Fig. 7 is a perspective view showing a coupling relationship between an air membrane and a fixture coupled to the support frame. Fig.

7, a fixing member 71 'and a pressing member 72' are provided on the upper side of the outer supporting frame 1 and the inner supporting frame 2 in the same structure as the side fixing member 7, (7 ') can be combined.

Accordingly, the front and rear ends of the air membranes 3 and 4 can be fixed to the fixture 7 ', respectively.

At this time, the outer support frame 1 and the inner support frame 2 are provided with upper flanges 11 and 21 to which the air membranes 3 and 4 are fixed, respectively, and upper and lower flanges 11 and 21, And formed webs 12,22.

The fixture 7 'can be coupled to the upper flanges 11, 21 of the inner and outer support frames 1, 2.

The fixing member 7 'may also be provided with a cushioning member at an inner end of the upper flange of the fixing channel 71' in order to prevent the air membranes 3 and 4 from being damaged.

8 is a cross-sectional view showing the coupling relationship between the mesh member and the fastener.

8, the fixing ring 74 'may also be formed in the fixing channel 71' of the fixing member 7 ', which is coupled to the upper part of the outer supporting frame 1 and the inner supporting frame 2 , And the front end and the rear end of the net member 8 can be respectively fixed to the fixing hook 74 '.

In this case, it is preferable that the fixing ring 74 'is installed on the upper flange of the fixing channel 71' so as to prevent damage due to friction with the mesh member 8.

A method of constructing a disaster type double-wall air-green house in the present invention is a method for constructing a disaster type double-wall air-green house in the present invention by using the side fixture 7 shown in FIG. 5, FIG.

A method of constructing a disaster type double air green house in the present invention comprises the steps of (a) rotating a plurality of helical files (9) in the ground at both side ends of the inner air film (4) and the outer air film step; (b) a side fixture 7 is provided on the upper end of the helical file 9 while the inner support frame 2 and the outer support 3 are provided at the front and rear end positions of the inner air film 4 and the outer air film 3, Installing a frame (1); (c) installing and fixing an inner air film (4) on the inner support frame (2) and the inner side fixture (7); (D) installing and fixing an outer air film (3) on the outer support frame (1) and the outer side fixture (7); And a control unit.

In this case, the air green house can be installed directly on the ground without any excavation work, which can reduce air and construction cost.

In addition, since the side fixtures 7 for fixing the end portions of the air membranes 3 and 4 are exposed on the ground, they are easy to maintain and manage.

1: outer support frame 11: upper flange
12: web 2: inner supporting frame
21: upper flange 22: web
3: Outside air film 31: Winding core
32: support rope 4: inner air film
41: wound core 42: skirt membrane
5: Closing panel 6: Access
61: door 7: side fastener
71: Fixed channel 711: Lower flange
712: web 713: upper flange
72: pressure member 721: bolt member
722: fixed block 73: buffer member
74: fixing ring 8: net member
9: helical file P ₁ , P ₂ : air pressure
S ₁ : Inner air film inside S ₂ :

Claims (9)

A pair of outer support frames 1 each formed in an arcuate shape and spaced apart from each other by a predetermined distance;
A pair of inner support frames 2 each formed in an arcuate shape and spaced apart from the inside of each of the outer support frames 1;
An outer air film 3 having front and rear ends fixed to the upper ends of the pair of outer support frames 1 to form an arcuate cross section;
An inner air film 4 having front and rear ends fixed to the upper ends of the pair of inner supporting frames 2 to form an arcuate cross section and to form a space S ₂ between the outer air film 3 and the inner air film 4;
A side fixture 7 fixed to both ends of the pair of outer support frames 1 and the pair of inner support frames 2 and fixing the side ends of the outer air film 3 and the inner air film 4, ; And
A skirt membrane (42) configured to seal the space between the inner air film (4) and the ground, the upper end being coupled to the lower inner side surface of the inner air film (4) and the lower end to partially cover the inner ground portion; Constructed and, the air pressure of the inner air layer (4) inside (S ₁₎ to (P ₁₎ is the space portion (S ₂₎ within the disaster type double membrane air is larger than the inner air pressure (P ₂₎ Green house.
delete The method of claim 1,
The height h ₁ of the outer support frame 1 and the inner support frame 2 is formed to be lower than the height h _{2 of the} center of the outer air film 3 and the inner air film 4, My disaster type double membrane air green house.
delete The method of claim 1,
The web 712 is vertically bent at both ends of the lower flange 711 and the upper flange 713 is horizontally bent inward at the upper end of each web 712 to form a fixed channel And a pressing member 72 which is inserted through the outer surface of the outer web 712 of the fixed channel 71 and has one end fixedly pressurizing the air membranes 3 and 4 inserted into the fixed channel 71, ). ≪ RTI ID = 0.0 > 1, < / RTI >
The method of claim 1,
Characterized in that a buffer member (73) is provided at the inner end of the upper flange (713) of the side fastener (7).
delete The method of claim 1,
A mesh member 8 is provided on the upper side of the outer air film 3 and the inner air film 4 and a fixing ring 74 is provided on the outer side of the fixed channel 71 of the side surface fixing member 7, Wherein the end of the member (8) is engaged.
A construction for constructing a disaster type double-layer air green house according to claim 1,
(a) rotating and closing a plurality of helical files (9) in the ground at both side end positions of the inner air film (4) and the outer air film (3);
(b) a side fixture 7 is provided on the upper end of the helical file 9 while the inner support frame 2 and the outer support 3 are provided at the front and rear end positions of the inner air film 4 and the outer air film 3, Installing a frame (1);
(c) installing and fixing an inner air film (4) on the inner support frame (2) and the inner side fixture (7); And
(d) installing and fixing an outer air film (3) on the outer support frame (1) and the outer side fixture (7); Wherein the air-permeable structure comprises an air-permeable membrane.

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