KR200307030Y1 - Structure of shading frame in Ginseng cultivation - Google Patents

Abstract

The present invention relates to an environment-friendly facility for ginseng cultivation, and in particular, in the facility for ginseng cultivation, it improves various problems of the wood facility, and also solves the problems appearing in other metal and non-metallic facilities that replace wood. It is aimed at improving and improving the environment of ginseng cultivation, while providing benefits for the bulk supply and installation of ginseng cultivation, while also providing eco-friendly facilities for high-performance ginseng cultivation. will be.

The ginseng cultivation facility according to the present invention, each of the column pipes 31, 31a and rafter pipes 32 that are perpendicular to the ginseng field toads 30 are separated from each other to constitute a separate pipe, At the point where the tip of the rafter pipe 32 extends further forward than the front column pipe 31, the fixed shaft of the column pipe 31 is formed to form the front post 50, but the column pipe is in contact with the rafter pipe 32. The contact portion of the (31) is formed of an integral round support surface 61, and the rafter pipe 32 and the rafter pipe (32) around the portion in contact with the integral round support surface 61 of the column pipe (31) The pillar pipe 31 is formed by binding the tie clip 70, and the rear support 51 corresponding to the front support 50 is rafter pipe to a separate pillar pipe 31a fixed to the ridge 30. The rear side of (32) is relatively lower than the front column pipe (31). And the rafter pipe 32 is coupled to the column pipe 31a by a separate binding member 34 on the basis of the intersection thereof by being in close contact with the column pipe 31a. In addition, the coupling portion of the rafters pipe 32 coupled to the rear pillar pipe 31a is formed as an integral round support surface 61a to be fastened with a binding clip 70a to form a rear post. Accordingly, a high-performance sun screening facility is constructed that is environmentally friendly, easy to construct, and has little deformation.

Description

Ginseng cultivation plant material {Structure of shading frame in Ginseng cultivation}

The present invention relates to an environment-friendly facility for ginseng cultivation, and in particular, in the facility for ginseng cultivation, it improves various problems of the wood facility, and also solves the problems appearing in other metal and non-metallic facilities that replace wood. It is aimed at improving and improving the environment of ginseng cultivation, while providing benefits for the bulk supply and installation of ginseng cultivation, while also providing eco-friendly facilities for high-performance ginseng cultivation. will be.

Ginseng, which is classified as a special crop, is a semi-negative plant, which is more difficult than other plants. Therefore, direct sunlight is not good, and the optically scattered light is good, it is known that 1/10 ~ 1/13 of the outdoor light is suitable.

As for the cultivation environment, the average annual temperature is 9 ° C. to 10.8 ° C., and 20 ° C. to 25 ° C. in summer, and particularly, when the temperature exceeds 35 ° C. in summer, physiological disorders occur. Rainfall is 700mm ~ 2,000mm per year, but suitable amount is 1100mm ~ 1,300mm, small amount of snowfall, soil topsoil or loam soil, subsoil is a lot of clay, and the soil is well separated, especially where drainage is well This is good. The topography is known to be inclined about 8 ℃ ~ 15 ℃ to the north and northeast of Korea.

In ginseng cultivation, it has been known from the past how to use sundown facilities to control the cultivation environment close to the ecological environment, and nowadays, these traditional and pre-modern facilities are mainstream except some facilities.

If you list the sundown facilities, the awning screen to block or control the sunshine condition, the part of the support neck (which is mixed with poles, rods, frames, or pillars) supporting the awning, It is used as a joint neck part that is mounted at an oblique inclination on the strut neck part to support the light shielding film in an oblique form), and various connecting members and strings or clips for supporting the strut neck part and the neck part, Aids to get out.

1 to 5 briefly look at the transition process of the facility, it can be seen the features of the sundown facility.

The most classic type of facility based on the current mainstream facility materials is shown in FIG. 1. 1 is a part of a wooden frame 15, which is made of a holding tree 11, 11a, a connecting tree 12, and the like installed on a ginseng field toad 10, and mounted on the wooden frame 15 to reflect direct sunlight from sunlight. The light shielding film 13 is used.

Here, all the materials such as the timber frame 15, that is, the holding wood (11) (11a) and the connecting wood 12, etc. are wood, these are structured to bind each intersection point through the string (14). The light shielding film 13 is made by bundle | stacking the heat-insulated rice straw that keeps heat by shielding and absorbing direct sunlight, suppressing excessive temperature rise in a cabin, and suppressing temperature emission in a cabin at low temperature conditions.

However, since this structure is a type of tying wood with strings, it is necessary to make the linking tree 12 protrude further forward by the length of 'a1' around the point at which the cross necks 11, 11a and the linking tree 12 intersect. The protruding area is included in the part which can cover the light shielding film, but since the strut tree 11, 11a is raised upward, the light shielding film 13 cannot be covered up to the 'a1' area and thus the sun protection area cannot be secured widely. There is a structural problem.

In addition, wood has the advantages of being light and easy to handle, but it is less suitable for ginseng field facilities, and it is not solid because it is tied with a string or nailed, so it cannot cope with climatic environments such as strong winds, rainfall and snowfall. There are more disadvantages. In particular, the light shielding film 13 made of straw straw only has a disadvantage in that it is easily damaged by strong winds, rainfall, and snow.

Another type of facility material is a light shielding film (13) by using a wooden frame (15) tied with a string as shown in FIG. 2, the light shielding film 13 is a double weave of overlapping rice straw thatch 16 and synthetic vinyl (17) (17a) ) May be more robust. This structure compensates for the weak robustness of straw straw (straw) and extends its lifespan. The straw shade that is combined with the synthetic straw (13) and synthetic vinyl (17) (17a) as a light shielding film (13) is used for the natural environment. Although the durability was maintained to some extent, since the straw straw thatch 16 and several layers of synthetic vinyls 17 and 17a are simultaneously overlapped to form the light shielding film 13, high cost is required and the economy is inferior.

Thus, the installation material as shown in Figures 1 and 2, because the front part of the performance tree 12 is protruding in front and fixed by using the drawbacks and the like that the installation area of the light shielding film 13 is limited by that much, it is not robust and also constructability There are various problems such as high cost because the light-shielding film 13 is formed by overlapping a bad point, rice straw and synthetic vinyl at the same time.

The reason for using the rice straw thatch 16 and synthetic vinyl 17 and 17a at the same time is to overlap the synthetic vinyl to compensate for the robustness of the rice straw thatch 16, but rather to reduce the direct sunlight in summer. Larger surface is applied as a means. That is, the area in which the frame portion 15 can structurally cover the light shielding film 13 is reduced by the struts 11 and 11a, so that the light shielding film 13 is doubled to reduce the light transmittance. 13) was used by overlapping.

If the light transmittance can be sufficiently controlled by using a single layer of light shielding film, which is relatively strong and durable, the multi-layered light shielding film 13 as shown in FIG. 2 does not need to be used.

In addition, in the coupling of the holding neck (11) (11a) and the connection neck 12, etc. may be combined using a nail instead of a string, but there is a problem of poor construction because it is not environmentally friendly and one must be taken out at each intersection.

The harming facility materials that can be classified as the traditional ginseng cultivation facility materials, such as the problem of using wood, the problem of deterioration of workability to build the facility by binding or nailing with a cord, reduction and expansion of the shading film installation area There were various problems such as control, lack of robustness to withstand the natural environment.

Other structures have been proposed to improve the problems associated with the use of these woods, their bonding methods, and the reduction of the installation area of light shielding films.

The structure is a structure that gives the installation construction and robustness by changing the wooden frame to a non-metal material, not metal or wood as shown in FIG.

Structural features of the facility material of Figure 3 is, firstly molded without integrally connecting the struts (rods) and connecting necks (rods), so that the structure can be connected to other struts continuously, such a facility material appeared in the wooden frame It was classified as a functional facility that can somewhat improve the problems of robustness, constructability and facility management aspects.

However, structurally, the holding rods 20 and the connecting rods 21 are integrally formed to form a constant bending part 22, so that they are not easy to be transported due to their large volume and are inconvenient in handling management. Good One However, it is not easy to erect the holding rod 20 due to its large volume, which makes it difficult to install.In addition, the construction must be constructed according to the preliminary specifications, so the construction is prioritized based on the facility conditions. There was a problem that could not be considered.

In addition, in order to fix the light shielding film 13 to the rafters pipe which is the connecting rod 21, a method of fixing the light shielding film 13 to the connecting rod 21 by using a separate string 23 or a wire 24 as shown in FIG. Because of the application, there was a disadvantage in that the installation of the light shielding film 13 was not easy, and the location of the light shielding film in the longitudinal direction was not easy, and a molding process in which the holding rod 20 and the connecting rod 21 were integrally bent together and manufactured There was also the problem of higher costs.

In this regard, a frame structure including a 'light shielding film frame structure for ginseng cultivation' of the pre-registered utility model registration Nos. 0230310 and 0254023 has been presented in various examples as shown in FIG. 5 (a) (b) (c).

Suning facility materials represented in (a), (b) and (c) of FIG. 5 have been presented for the purpose of securing the shading area or improving the installation workability, respectively, but commonly bend the holding rod 20 and the connecting rod 21. As a separate holding rod, the post rod 25 is refracted from the connecting rod 21 to form a bending portion 22, respectively.

Thus, the holding rods, connecting rods, and post-jug rod integrated sun screening facility materials can be installed at once, and the shading area can be effectively extended. The problems of economics due to the high cost of construction and the problem of work in the field facilities also had problems in the installation of parts for attaching the light shielding film to the frame.

In addition, when a lot of snow was accumulated in the shading film, the weight of the snow acted vertically around the frame part such as the holding rod and the connecting rod, causing deformation of the entire facility material and damaging the entire structure if it could not bear the load.

On the other hand, the previous registered utility model registration No. 290950, 290951, 290952 and the like have improved the problems of various conventional sunscreen facilities, but there was an insufficient coupling stability of the rafter pipe and the column pipe.

Accordingly, an object of the present invention is to provide a ginseng cultivation plant material having high economic feasibility while using the high functionality of rod-shaped metal and non-metallic pipe in providing ginseng cultivation plant material.

Another object of the present invention to provide a ginseng material harming facility material, to provide a harming facility material that can be constructed in a variety of forms according to the construction conditions of the site and easy to transport and manufacture while preserving the high functionality of the rod-shaped pipe.

Still another object of the present invention is to provide a strong ginseng planting plant material for cultivating ginseng by allowing the coupling between the column pipe and the rafter pipe to be structurally stable.

Features of the present invention for achieving this purpose,

In order to support the light shielding film, it is connected to the column pipe vertically extending out to the ginseng field bank, and connected to the column pipe and other column pipes adjacent to each other, and a predetermined slope is given through the difference in the height of the connection position with respect to the column pipe. Rafter pipe installed at an angle to the column pipe to support the light shielding film, a binding member for binding the rafter pipe to the column pipe at the intersection of the column pipes, and the coupling member to connect the column pipe and the rafter pipe using the binding member. In the ginseng cultivation sunscreen facility material comprising the front pillar and the rear pillar to cover the light shielding film to install a light shielding film to block sunlight on the rafter pipe,

(1) Each of the column pipes and rafters pipes vertically extending out to the ginseng field bank are separated from each other and composed of separate pipes,

(2) The front pillar is formed by forming a fixed shaft of the column pipe at a point where the tip of the rafter pipe extends further forward than the front column pipe, and the contact portion of the column pipe in contact with the rafter pipe corresponds to the curvature of the rafter pipe. It is formed of an integral round support surface having a curvature contact surface to be formed, and consists of a binding clip for binding the rafter pipe and the column pipe around the integral round paper ground contacting the rafter pipe and the column pipe,

(3) The rear strut corresponding to the front strut is placed on the back of the rafter pipe in a position lower than the cross point of the pillar pipe in a separate column pipe fixed to the periphery so that the rear strut closely adheres to the pillar pipe and is separated based on the cross point. It is characterized by consisting of a column pipe and a rafter pipe as a binding member of the.

Other features of the present invention,

In order to support the light shielding film, it is connected to the column pipe vertically extending out to the ginseng field bank, and connected to the column pipe and other column pipes adjacent to each other. Rafter pipe installed at an angle to the column pipe to support the light shielding film, a binding member for binding the rafter pipe to the column pipe at the intersection of the column pipes, and the coupling member to connect the column pipe and the rafter pipe using the binding member. In the ginseng cultivation sunscreen facility material comprising the front pillar and the rear pillar to cover the light shielding film to install a light shielding film to block sunlight on the rafter pipe,

(1) Each of the column pipes and rafters pipes vertically extending out to the ginseng field bank are separated from each other and composed of separate pipes,

(2) The front pillar is formed by forming a fixed shaft of the column pipe at a point where the tip of the rafter pipe extends further forward than the front column pipe, and the contact portion of the column pipe in contact with the rafter pipe corresponds to the curvature of the rafter pipe. It is formed of an integral round support surface having a curvature contact surface to be formed, and consists of a binding clip for binding the rafter pipe and the column pipe around the integral round paper ground contacting the rafter pipe and the column pipe,

(3) The rear support corresponding to the front support is formed by forming an end of the rafters pipe fixed to the pillar pipe as an integral round support surface to fix the rafters pipe to the pillar pipe fixed to the ridge. It is characterized by combining the rafter pipe to the column pipe with a clip.

In the case of using the metal rod-shaped pipe as the sundown facility, the pillar pipe forming the front pillar and the rear pillar and the rafter pipe which combines the pillar pipe while supporting the light shielding film to form the framework of the construction material as a single facility material In addition, by combining them in an appropriate combination, the screen area of the light shielding film can be secured to the maximum, and transportation and handling inconveniences in the column pipe, the column pipe, the rod and the post rod integral steel pipe, and the steel It is possible to improve the uneconomical problems caused by the bending work of the pipe, and to supply the steel pipes of various lengths appropriate to the site conditions in a large amount, which makes it possible to diversify the specifications of the ginseng cultivation facility material and the steel pipes suitable for the site conditions. Because it can provide In addition, the complex construction of steel pipes can be improved centering on site conditions, so that construction of labor-intensive sun screening materials can be replaced by simple installation work that can be performed by unskilled workers. In addition, by structurally strengthening the coupling of the column pipe and the rafter pipe, it is possible to construct a solid sundown facility material that improves problems such as the separation of the rafter pipe or deformation of the entire structure.

1 is a view showing the sun ginseng facility material for conventional ginseng cultivation

2 is a view showing a light shielding film as a sunscreen facility material for conventional ginseng cultivation

3 is a view showing another conventional ginseng cultivation facility material

Figure 4 is a view for explaining the installation state of the light shielding film in conventional ginseng cultivation sunscreen facility

Figure 5 (a) (b) (c) is for explaining another conventional ginseng cultivation facility material showing a facility material made of an integral rod-shaped pipe as an example

Figure 6 is a configuration example of ginseng cultivation harm planting material according to an embodiment of the present invention

Figure 7 is an example of the shape of the column pipe tip for the front strut configuration of ginseng cultivation sundown facility material according to an embodiment of the present invention

8 is an example of a facility material combined state according to an embodiment of the present invention

9 is a configuration example of the rear post according to an embodiment of the present invention

10 is an explanatory diagram for explaining another embodiment of the present invention;

11 is a continuous arrangement state of ginseng cultivation harm planting material according to an embodiment of the present invention

12 is a view showing in plan view the installable area of the light shielding film for the sunscreen facility material according to an embodiment of the present invention

Figure 13 is an explanatory diagram for explaining the outdoor light transmission state for the ginseng cultivation facility facility according to the present invention

14 is a detailed structure of a typical light shielding hanger that can be applied according to the present invention

* Description of the symbols for the main parts of the drawings *

30: Tomb 31.31a: Pillar pipe

32: Rafter pipe 33.33a: Wedge tip

34: binding member 50: front holding

51: rear support 60: curvature contact surface

61.61a: Integrated round paper floor 70.70a: Bonding clip

71: peace piece 72: shading hooks

74: pieces

Hereinafter, the present invention will be described with reference to the drawings. Figure 6 is an example of the configuration of ginseng cultivation harm plant material according to an embodiment of the present invention. Figure 7 is an example of the shape of the column pipe tip for the front post configuration of ginseng cultivation plant material according to an embodiment of the present invention. 8 is an example of a facility material combined state according to an embodiment of the present invention. 9 is a configuration example of the rear post according to an embodiment of the present invention. 10 is an explanatory diagram for explaining another embodiment of the present invention. 11 is a continuous arrangement state of ginseng cultivation sunhae facility material according to an embodiment of the present invention. FIG. 12 is a planar view of an installable area of a light shielding film for a sunscreen facility material according to an embodiment of the present invention. Figure 13 is an explanatory diagram for explaining the outdoor light transmission state for the ginseng cultivation facility according to the present invention. Figure 14 shows a detailed structure of a typical light shielding film hanger that can be applied according to the present invention.

The present invention, as shown in Figure 6 to 14 to connect the pillar pipe 31 and the pillar pipe 31 and the other pillar pipe 31 and adjacent to each other adjacent to each other perpendicular to the ginseng field to support the light shielding film, A predetermined slope is given through the height difference of the connection position with respect to the pillar pipes 31 and 31a, and is installed obliquely on the pillar pipes 31 and 31a to support the light shielding film 32 and the pillar pipes 31. A binding member for binding the rafter pipe 32 to the column pipes 31 and 31a around the intersection point of the (31a), and the column pipes 31 (31a) and the rafter pipe 32 using the binding member. It is configured by installing a light shielding film to block the sunlight along the rafter pipe 32 by configuring the front support and the rear support to cover the light shielding film by the coupling coupling of the.

The ginseng cultivation sunscreen facility material according to an embodiment of the present invention, each of the column pipes 31, 31a and rafter pipes 32 vertically outward to the ginseng field toad (30) is composed of a separate pipe separated from each other do.

More specifically, as shown in FIG. 6, each of the column pipes 31 and 31a and the rafter pipe 32 that vertically extends out to the ginseng field toad 30 is separated from each other to form a separate pipe, and the rafter At the point where the front end of the pipe 32 extends further forward than the front column pipe 31, the fixed shaft of the column pipe 31 is formed to form the front post 50, and the column pipe is in contact with the rafter pipe 32. The contact portion 31 is formed of an integral round support surface 61 having a curvature contact surface 60 corresponding to the outer diameter curvature of the rafter pipe 32, and the rafter pipe 32 is a column pipe ( 31 is formed by binding the rafter pipe 32 and the column pipe 31 with the binding clip 70 around the portion in contact with the integral round support surface 61 of the back, corresponding to the front post 50 51 is attached to the other column pipe 31a which is fixed to the toad 30 and fixed. The rear side of the pipe (32) is positioned relatively lower than the front column pipe (31) to be in close contact with the column pipe (31a) and the rafter pipe to the column pipe (31a) with a separate binding member (34) based on the intersection point. Composed of 32 is configured.

In addition, according to another embodiment of the present invention, as shown in Figure 10, each of the column pipes (31) (31a) and the rafter pipes (32) to be vertically out on the ginseng field to form a separate pipe and , To form a fixed shaft of the column pipe 31 at the point where the front end of the rafter pipe 32 extends further forward than the front column pipe 31 to form the front post 50, the column in contact with the rafter pipe 32 The contact portion of the pipe 31 is formed of an integral round support surface 61 having a curvature contact surface 60 corresponding to the curvature of the rafter pipe 32, and the rafter pipe 32 and the column pipe 31 contact each other. Consisting of the rafters pipe 32 and the column pipe 31, the binding clip 70 is formed around the integrated round support surface 61 to be formed, the rear support 51 corresponding to the front support 50, the ridge ( When the rafter pipe 32 is in close contact with the pillar pipe 31a fixed to the outside In order to fix the end of the rafter pipe (32) fixed to the column pipe (31a) to form an integral round support surface (61a) to combine the rafter pipe (32) to the column pipe (31a) with a separate binding clip (70a) Can be configured.

The bottom ends of the pillar pipes 31 and 31a may be formed as wedge-shaped tips 33 and 33a having sharp ends so that they can easily be protruded deep into the torso without a separate auxiliary device.

Here, the coupling form using the binding member 34 of the column pipe 31a and the rafter pipe 32 corresponding to the rear support 51 is preferably an elastic coupling form through the wire clip 80 as shown in FIG. 9. .

However, the wire clip 80 may be combined using a screw or a separate plate-shaped clip without using the wire clip. However, the wire clip 80 is simpler in construction than the other binding members, and the pillar pipe 31a and the rafter have a tightening force. Since the pipe 32 is tightened to join, there is an advantage that can be combined in a solid state.

The wire clip 80 usable as the binding member 34 has a contact space in contact with the column pipe 31a and a pipe coupling portion in contact with the rafter pipe 32, as shown in FIG. It can be easily produced by forming the action portion 81, it is appropriate to use a rigid elastic wire for the material to increase the tightening force.

In addition, all the facility material according to the present invention, for example, the binding clip including a column pipe, rafter pipe and the like can be produced using a non-metal material as well as a metal material.

11 shows an example of the continuous arrangement of ginseng cultivation sun screening facility material according to an embodiment of the present invention, the continuous arrangement structure of this sun screening facility has a plurality of pillar pipes (31) (31a) to the ridge (30) It can be obtained by connecting the rafter pipe 32 between each of the column pipes 31 and 31a.

In the installation method of the sundown facility material according to the present invention, first, the pillar pipes 31 and 31a, which form the front support 50 and the rear support 51, are respectively out at a suitable depth to the ridge 30 at predetermined intervals. . At this time, the ends of the pillar pipes 31 and 31 a are processed with a sharp tip 33 so that they are easily pushed out on the toad 30. In view of the soil properties, the soil pipes are not required to use a separate mechanism if they are out of the proper depth. Depending on the nature, the outside can be adjusted out of the depth of the pillar pipe 31, 31a in a solid state.

When the work outside the pillar pipes 31 and 31a is finished, the rafter pipe 32 is mounted on the pillar pipes 31 and 31a by connecting both pillar pipes 31 and 31a.

In order to mount the rafter pipe 32 to the column pipes 31 and 31a, the rafter pipe 32 is first seated on the integrated round support surface 61 having the curvature contact surface 60 provided at the tip of the column pipe 31. Put the front end of each other and insert the binding clip 70 at one end of the rafter pipe 32 to engage the contact surface of the rafter pipe 32 and the column pipe 31 with each other to the piece hole 71 of the binding clip 70. By passing through the piece 74 and tightening, one end of the rafter pipe 32 is fixed to the column pipe 31 to complete the front post 50.

Here, as shown in Figure 7, the rafter pipe 32 is seated on the curvature contact surface 60 of the integral round support surface 61 formed in the column pipe 31 to facilitate the coupling through the binding clip 70 and after It prevents the rafter pipe 32 from flowing or escaping.

Thus, when one end of the rafter pipe 32 is seated on the front column pipe 31 and fixed with the binding clip 70, the coupling between the rafter pipe 32 and the front column pipe 31 is completed, and the front column 50 is Is completed.

The rear strut 51 corresponding to the front strut 50 has a lower side of the rafter pipe 32 in a separate pillar pipe 31 fixed outwardly on the torso 30 than the front pillar pipe 31. The column pipe 31a and the rafter pipe 32 by combining the column pipe 31a and the rafter pipe 32 with a separate binding member 34 on the basis of the intersection point thereof, and the rafter pipe 32 is connected to each column pipe 31. The work to attach to the (31a) can be finished.

Here, the coupling of the rear support 51 is formed by forming the end of the rafter pipe 32 as a unitary round support surface 61a as shown in FIG. 10 to be in close contact with the column pipe 31a to be coupled with the binding clip 70a. It is also possible to apply.

The inclination of the rafter pipe 32 with respect to the column pipes 31 and 31a is determined by the formation angle of the integrated round support surface 61 formed in the column pipe 31. That is, the integral round support surface 61 formed on the column pipe 31 is a portion for fixing the tip end surface of the column pipe 31 by guiding contact with the rafter pipe 32 to produce the pillar pipe 31. Since it is a part formed by the press working in, the contact angle of the rafter pipe 32 can be adjusted in advance to be processed into a desired shape.

Here, when the inner surface of the integrated round support surface 61 is formed with a curvature contact surface 60 corresponding to the outer diameter of the rafter pipe 32, the contact fixing force between the column pipe 31 and the rafter pipe 32 may be strengthened. In addition, even in the initial installation, it can help to finish the installation work more effectively by the guide action of the rafter pipe 32 by the curvature contact surface (60).

Meanwhile, the rear of the rafter pipe 32 is fixed to the rear column pipe 31a corresponding to the front column pipe 31. In this case, the wire clip 80 is applied and fixed as shown in FIG. Likewise, the end of the rafter pipe 32 coupled to the rear pillar pipe 31a is formed as an integral round support surface 61 having a curvature contact surface 60 in consideration of the outer diameter of the pillar pipe 31a, thereby binding clip 70a. The rafter pipe 32 can be mounted on each of the column pipes 31 and 31a by selectively applying the method of tightening the pieces to the pieces.

Thus, after mounting the rafter pipe 32 to the column pipes 31 and 31a, a light shielding film is covered thereon. The screen area of the light shielding film is included in the installation area of the tip end of the rafter pipe 32. Therefore, a light shielding film may be applied to the tip end portion of the rafter pipe 32, or a light shielding film hanger may be installed at an appropriate position according to the climatic environment to hang the light shielding film to fix the light shielding film at that position. In the case of the present invention, the light blocking film hanger 72 may be formed on the front end surface of the binding clip 70.

Applicable light shielding film applied to ginseng cultivation sunscreen facility material according to an embodiment of the present invention can use only one layer of the light shielding film without using a separate straw straw or other red light shielding material. In order to use a single layer of light shielding film, it is necessary to obtain sufficient light shielding effect compared to one or more layers of light shielding film. In the present design, the sunscreen facility expands the entire screen area of the light shielding film and also ensures maximum in-flight area of the ginseng field. And by controlling the exposure area to direct sunlight can obtain an effect equivalent to using more than one light shielding film. As a result, if sufficient light shielding effect can be obtained by using one layer of light shielding film, it is possible to significantly reduce installation labor cost and light shielding film cost generated when using more than one light shielding film.

Securing the durability of the light shielding film has a variety of vinyl materials and there is no problem in securing durability because it can be given sufficient durability through a tensile test in the manufacturing stage.

FIG. 12 is a planar view of an installable area of a light shielding film for a sunscreen facility material according to an embodiment of the present invention.

Generally, the installable area 'a2' of the light shielding film is an area. That is, the distance of 'a2' is the distance (spacing) between the front post and the rear post (column pipe). Here, the width (width) between the struts in the side-by-side direction is 'a3', and this region is not an area for determining the installable area of the light shielding film since it is based on the arrangement of the column pipes 31 and 31a. In contrast, the distance 'a2' between the column pipes 31 and 31a is kept constant proportionally. This means that all facility materials are properly arranged without pre-determining the width, but the distance between the holding rods (the distance 'a2' between the pillar pipes 31 and 31a in the present invention) is the length of the performance rod (rafter pipe in the present design). Since is decided in advance, the distance between landlords is already determined.

The installable area of the light shielding film according to the present invention has a structure that is expanded under the same conditions as compared to other facility materials as shown in FIG. That is, the tip portion of the rafter pipe 32 is formed to extend farther than the column pipe 31, and the top surface of the rafter pipe 31 does not rise so that 'a4', which is the tip extension portion of the rafter pipe, is raised. The part is included in the light shielding film installation area.

In the case of ordinary facility materials, since the main tree is formed in a shape (see Fig. 1) that rises above the rafters (Rafters), there is a disadvantage in that the installation of more than the portion of the shielding film can not be installed because the whole tree is raised. Here, the facility material in the form of the bent pole and the performance pole, or the pole pole and the performance rod and the post rod is integrally classified as a structure that can be installed by extending the shading screen forward as in the present invention, but this type of facility material is Not relevant

13 is for explaining the outdoor light transmission state for the ginseng cultivation facility according to the present invention, according to the expansion of the shading film installation area can extend the direct light blocking area in the abcd direction to the front of the rafter pipe 32 long Yes, it is shown as an example. As such, the expansion of the light shielding film installation area through the front portion of the shroud pipe 32 can be effectively used to reduce the amount of direct sunlight in the cabin by extending the light shielding film further in the summer.

14 is a detailed structure of a typical light shielding film hook 72 applicable to the present invention, and the light shielding film hook 72 is appropriately formed directly on the binding clip 70. In this structure, the light blocking film hanger 72 of the projection jaw shape that can hang the light blocking film 73 is formed directly on the binding clip 70 that binds the rafter pipe 32 and the front column pipe 31. There is an advantage of not having to form a sphere.

As such, the present invention has the effect of ensuring the screen area of the light shielding film to the maximum, even though the sunscreen facility material has a simple structure. In addition, there is an effect that can improve the non-economical problems caused by the bending and work of the steel pipes and the handling and handling inconvenience that appeared by making the pillar pipe and rafter pipe integrally. In addition, it is possible to diversify the ginseng cultivation facility by supplying a large amount of column pipes and rafter pipes in various lengths to suit the site conditions, and it is also possible to easily provide suitable facilities for the site conditions, thereby improving the workability. have. In addition, it is possible to replace the construction of labor-intensive sun screening facilities by simple installation work that can be performed by unskilled workers by improving the complex construction of steel facilities centered on site conditions. In addition, it is possible to easily combine the rafter pipe and the column pipe, and in the coupling, the installation of the column pipe to prevent the flow or departure of the rafter pipe by simply mounting the binding clip, thereby improving the workability and overall prevent deformation of the structure. Number is effective.

Claims (6)

To support the light shielding film, the column pipe vertically placed on the ground of the ginseng field and the pillar pipe and other pillar pipes adjacent to each other, and a predetermined slope is given through the difference in the height of the connection position with respect to the pillar pipe. A rafter pipe installed at an angle to support the light shielding film, a binding member for binding the rafter pipe to the pillar pipe at the intersection of the pillar pipes, and the light shielding film by connecting the pillar pipe and the rafter pipe using the binding member In the ginseng cultivation plant material consisting of the front and rear struts covered by the installation of a light shielding film to block the sunlight along the rafter pipe, Each of the column pipes 31 and 31a and the rafter pipe 32 that are perpendicular to the ginseng field toad 30 are separated from each other to form a separate pipe, and the tip of the rafter pipe 32 is forward. The front shaft 50 is formed by forming a fixed shaft of the column pipe 31 at a point extending further forward than the column pipe 31, but the contact portion of the column pipe 31 in contact with the rafter pipe 32 is an integral round. The rafter pipe 32 and the column pipe 31 are formed by the support surface 61, and the rafter pipe 32 contacts the integrated round support surface 61 of the column pipe 31. 70, and the rear support 51 corresponding to the front support 50, the rear of the rafter pipe 32 in the separate pillar pipe (31a) that is fixed to the ridge 30 is fixed to the front pillar pipe To a lower position relative to (31) and close to the column pipe (31a) Ginseng haegarim plant material that is configured to combine the beams pipe 32 to the column pipe (31a) as a separate engagement member (34) relative to the intersection, characterized. The method of claim 1, Ginseng cultivation facility is characterized in that the integral round support surface 61 of the column pipe 31 in contact with the rafter pipe 32 has a curvature contact surface 60 corresponding to the outer diameter curvature of the rafter pipe 32. ashes. The method of claim 1, Ginseng cultivation sunscreen facility material, characterized in that the light shielding film hanger 72 is protruding in the shape of the projection jaw to the front end surface portion of the binding clip (70). The method of claim 1, The binding member 34 for coupling the rafter pipe 32 and the column pipe 31a is a ginseng cultivation facility characterized in that it uses a wire clip 80 having an elastic action portion. The method of claim 1, The pillar pipe, the rafter pipe, the binding clip material is ginseng cultivation facility material, characterized in that made of metal and non-metal material. To support the light shielding film, the column pipe vertically placed on the ground of the ginseng field and the pillar pipe and other pillar pipes adjacent to each other, and a predetermined slope is given through the difference in the height of the connection position with respect to the pillar pipe. A rafter pipe installed at an angle to support the light shielding film, a binding member for binding the rafter pipe to the pillar pipe at the intersection of the pillar pipes, and the light shielding film by connecting the pillar pipe and the rafter pipe using the binding member In the ginseng cultivation plant material consisting of the front and rear struts covered by the installation of a light shielding film to block the sunlight along the rafter pipe, Each of the column pipes 31 and 31a and the rafter pipe 32 that vertically extends out to the ginseng field bank are separated from each other to form a separate pipe, and the tip of the rafter pipe 32 is the front column pipe 31. The front pillar 50 is formed by forming a fixed shaft of the column pipe 31 at a point extending further forward, and the contact portion of the column pipe 31 in contact with the rafter pipe 32 is the curvature of the rafter pipe 32. It is formed of an integrated round support surface 61 having a curvature contact surface 60 corresponding to the rafter pipe 32 around the integrated round support surface 61, in which the rafter pipe 32 and the column pipe 31 contact each other. ) And the pillar pipe 31 is formed by binding the clip clip 70, and the rear support 51 corresponding to the front support 50 is rafter pipe (31a) fixed to the pillar pipe 31a which is fixed to the ridge 30. 32 is fixed to the column pipe (31a) in order to close and secure Ginseng haegarim plant material, characterized in that to form the ends of the pipes 32 in a one-piece round support surface (61a) configured to combine kkarae pipe 32 from the column pipe (31a) to separate the binding clip (70a).