KR200290950Y1 - Structure of shading frame in Ginseng cultivation - Google Patents

Abstract

The present invention relates to facility materials for ginseng cultivation, and in particular, in relation to the provision of facility materials for ginseng cultivation, to improve various problems of wood facilities, and also to improve problems that occur in other metal and non-metallic facility materials replacing wood. In addition, the eco-friendly facility for high-performance ginseng cultivation, which combines ginseng cultivation environment control function suitable for ginseng growth as well as the benefits of mass supply and installation of facility materials for ginseng cultivation, while being suitable for artificial ginseng cultivation environment control will be.

The ginseng cultivation plant material for ginseng cultivation of the present invention is composed of separate pipes, each of which is separated from each other and the pipe pipes vertically outward on the ginseng field bank, and is composed of separate pipes, and one side of the tip of the rafter pipe based on the top surface of the tip pipe In contact with the tip of the column pipe and combined with a separate binding member around the contact point, and the joining position of the rafter pipe extends further forward than the column pipe to join the pillar pipe and the rafter pipe is advanced forward. It is formed as a front post, and the rear support corresponding to the front support is formed by attaching the other end of the rafters pipe to a lower position relatively lower than the intersection point of the pillar pipe in a separate column pipe fixed to the ridge. Combines column pipe and rafter pipe as separate binding members based on the intersection Characterized in that made.

In addition, the rafter pipe is characterized in that the ginseng cultivation facility for ginseng cultivation is configured to couple the clip-type light shielding hook hanger fixed to the rafter pipe.

In addition, the ginseng cultivation facility is characterized by the installation of a support pipe in the vertical direction of the rafters pipe to prevent deformation due to the vertical load transmitted through the light shielding film. Accordingly, the firmness, constructability, economic feasibility, field responsiveness, transportation and handling, eco-friendliness, etc. of the facility material are improved.

Description

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

The present invention relates to environmentally friendly facility materials for ginseng cultivation, and in particular, in relation to the provision of facility materials for ginseng cultivation, to improve various problems of wood facility materials, and also to present problems in other metal and non-metallic facility materials replacing wood. In addition, the benefits of the mass supply and installation of facilities for ginseng cultivation, as well as the environmentally friendly facilities for high-performance ginseng cultivation, as well as the function of controlling the environment for ginseng cultivation, are provided. It is about.

Ginseng, which is classified as a special crop, is a semi-negative plant, which is more difficult than other plants. Therefore, although it is dead in direct sunlight, the optically scattered light is good, it is known that 1/8 to 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, where the amount of snow is small, the topsoil of soil is sandy loam or loam soil, and the subsoil is loam soil with a little clay quality. This is good. The topography is known as a few places inclined 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, To support the light shielding film in an oblique form, it is used to connect the tree part (which is used as a hanging tree (rod), softwood rod, rafters, and support bar), etc. Various connecting members and straps or clips, and assistive devices for outgoing the support neck portion.

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 the ginseng field toad (10) and mounted on the wooden frame (15) to reflect direct sunlight from sunlight. The light shielding film 13 is formed.

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 the structure that bound each intersection point through the string 14 or nail , The light shielding film 13 is made of rice straw that is used to shield and absorb direct sunlight to suppress excessive temperature rise in the cabin.

However, since this structure is a type of nailing or stringing wood, the tree 12 must be the length of 'a1' around the point where the holding tree 11, 11a and the tree 12 cross. It protrudes further and the protruding area is included in the part which can cover the light shielding film, but because the strut tree (11) (11a) is raised upward, the light shielding film (13) can not be covered to the 'a1' area, so the sun area is widened. There is a structural problem that cannot be secured.

In addition, wood has the advantages of being light and easy to handle, but it is less workable as a ginseng field facility, and because it is not firm because it is tied with nails or strings, it cannot cope with climatic environments such as strong winds, rainfall, snowfall, etc. Then there are more disadvantages. In particular, the light shielding film 13 made of rice straw that has a disadvantage that is easily damaged by strong winds, rainfall, snow.

Another type of facility material is to use a wooden frame (15) tied with nails or strings as shown in Figure 2, the light shielding film 13 is made of a double-woven fabric overlapping rice straw straw (16) and synthetic vinyl (17) (17a) There is a case that (13) is made stronger. This structure compensates for the poor robustness of rice straw ears, and also extends heat insulation and lifespan, and it is durable to natural conditions by using rice straw ears 13 and synthetic vinyl 17 and 17a together as a light shielding film 13. Although it could be maintained to some extent, since the straw straw whit 16 and several layers of synthetic vinyls 17 and 17a are simultaneously overlapped to form a 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, since the light shielding film 13 is formed by overlapping a bad point, rice straw and synthetic vinyl at the same time.

On the other hand, the reason for using the rice straw ears 16 and synthetic vinyl (17) (17a) at the same time is to overlap the synthetic vinyl in order to compensate for the robustness of rice straw ears (16), but rather than direct sunlight in summer to reduce heat insulation The surface applied as a way to make it larger. 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 use of a single layer of light shielding film, which is relatively solid and durable, can increase the light transmittance in low temperature stages such as spring and autumn, and reduce the light transmittance below about 10% during high temperature stages such as summer, if the temperature rise can be suppressed as shown in FIG. It is not necessary to use the multi-shielding light shielding film 13.

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 construction properties due to the construction of the facility by binding or fixing with a cord, the problem of reducing the shading film installation area, There were various problems, such as the absence of robustness to withstand natural conditions and soil contamination by waste such as nails and strings remaining when burning wood after harvesting ginseng.

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, but also because it is bulky, it is not easy to erect the holding rods 20, so it is difficult to install, and the construction and construction of the ginsengpo before and after the ginsengpo is not constant, so in advance, Construction was prioritized based on the prepared materials and there was a problem that the site conditions could not be sufficiently 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. Since it was applied, the shading film 13 was not easy to install and had an unstable disadvantage, and the shading film length location was not easy to select, and the holding rod 20 and the connecting rod 21 were formed by bending together as a single piece. There is also the problem of high cost in the process.

On the other hand, various frame structures including 'Ginseng cultivation light shielding film frame structure' of the pre-registered utility model registration Nos. 0230310 and 0254023 have been presented as an example as shown in FIG.

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 24 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. It is difficult to transport because it is integrated with the high cost of constructing it, and it is difficult to carry the holding rod to the ground at a certain height. When reusing the ginseng field in the furrow and the length of the dike had a problem that can not be reused.

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.

Therefore, the purpose of the present invention is to provide a ginseng cultivation facility material for artificially adjusting the ginseng cultivation environment.

Another object of the present invention is to provide a ginseng cultivation facility material provided for the above purpose, while providing a high economic efficiency ginseng cultivation facility material while still retaining the high functionality of the rod-shaped metal and non-metallic pipe.

It is another object of the present invention to provide a ginseng material harming facility material, which is easy to carry and manufacture while preserving the high functionality of the rod-shaped pipe, and to provide a harming facility material that can be constructed in various forms according to the construction conditions of the site. .

Another object of the present invention is to provide a ginseng cultivation facility material, to control the installation area of the light shielding film to increase the porosity of the ginseng field in the low temperature phase and to prevent the high temperature by reducing the light transmittance in the high temperature phase.

Still another object of the present invention is to provide a ginseng cultivation facility material that can be easily and simply placed on the desired position of the light shielding film.

It is another object of the present invention to provide a strong ginseng planting plant material for cultivating ginseng, which can prevent damage such as tree deformation by strengthening the vertical load of the plant material.

Ginseng cultivation facility material of the present invention to achieve these purposes,

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 comprising a front shield and a 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 one end of the rafter pipe is contacted with the tip of the column pipe based on the top of the tip end of the column pipe, and is joined with a separate binding member around the contact point, and the position of the rafter pipe is further forward than the column pipe. Extends and combines to form the pillar pipe with the front pillar in the form of the rafter pipe moving forward.

(3) The rear strut corresponding to the front strut is placed on the other end of the rafters pipe in a position lower than the cross point of the pillar pipe in a separate pillar pipe fixed to the ridge, and then closely adhered to the pillar pipe. It is characterized by consisting of a column pipe and a rafter pipe as a separate binding member.

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, 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 comprising a front shield and a 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 one end of the rafter pipe is contacted with the tip of the column pipe based on the top of the tip end of the column pipe, and is joined with a separate binding member around the contact point, and the position of the rafter pipe is further forward than the column pipe. Extends and combines to form the pillar pipe with the front pillar in the form of the rafter pipe moving forward.

(3) The rear strut corresponding to the front strut is placed on the other end of the rafters pipe in a position lower than the cross point of the pillar pipe in a separate pillar pipe fixed to the ridge, and then closely adhered to the pillar pipe. Combine the column pipe and rafter pipe with a separate binding member,

(4) The rafter pipe is characterized in that the ginseng planting sunscreen facility material configured to couple the clip-type shading curtain hook to secure the shading film to the rafter pipe.

Another feature 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, 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 one end of the rafter pipe is contacted with the tip of the column pipe based on the top of the tip end of the column pipe, and is joined with a separate binding member around the contact point, and the position of the rafter pipe is further forward than the column pipe. Extends and combines to form the pillar pipe with the front pillar in the form of the rafter pipe moving forward.

(3) The rear strut corresponding to the front strut is placed on the other end of the rafters pipe in a position lower than the cross point of the pillar pipe in a separate pillar pipe fixed to the ridge, and then closely adhered to the pillar pipe. Combine the column pipe and the rafter pipe with a separate binding member,

(4) Characterized by the ginseng cultivation plant material installed for ginseng cultivation to install a support pipe in the vertical direction of the rafters pipe to prevent deformation due to the vertical load transmitted through the light shielding film.

In the case of using the rod-shaped pipe made of metal as the sundown facility material, 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 facility material are provided as a single facility material. In addition, by combining them in an appropriate combination, first, the screen area of the light shielding film can be adjusted to be suitable for the ginseng growth, it is possible to use a single layer of light shielding film, and second, Jeonju and Hujubong, or Jeonjubong and Chobongbong, and Jeonjubong It can improve the uncomfortable handling and handling problems of the steel pipes, which are integrated with the hoop rods and the yeonbong rods. As it can supply a large amount effectively and effectively, the standard of ginseng cultivation facilities can be diversified. In addition, it is possible to provide suitable facility materials for the site conditions, and fifthly, to improve the constructability.Fifthly, the complex construction properties of the facility materials can be improved based on the site conditions. Sixth, after harvesting ginseng, all facility materials can be reused to prevent soil and air pollution. In addition, by strengthening the rafters pipe to prevent the collapse or deformation of the haze facility material caused by the load transmitted through the light shielding film or other various dynamic loads, it is possible to build a solid haze facility material.

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

6 is a view showing a construction example of ginseng cultivation harm planting material according to an embodiment of the present invention

7 is a view showing an example of the shape of the end of the pillar pipe of ginseng cultivation plant material according to an embodiment of the present invention

8 is an example of the coupling state of the facility material by the coupling member according to an embodiment of the present invention, (a) is a coupling state of the front support, (b) is a coupling state of the rear support, (c) can be used as a coupling member Drawing showing an example of a wire clip

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

10 is a cross-sectional view of the applicable light shielding film applied to the ginseng cultivation sunscreen facility material according to an embodiment of the present invention

11 is a view for explaining the installable area of the light shielding film for sundown facility material according to an embodiment of the present invention for reference

12 is a view for explaining the outdoor light transmission state for the ginseng cultivation plant material according to the present invention

Figure 13 is a detailed structure of the light shielding film hanger applicable to the present invention,

(a) is a structure in which the clip-type hanger is separately installed;

(b) shows the structure in which the protrusion jaw is installed on the rafter pipe.

14 is a reference diagram for explaining a hook state of a light shielding film with respect to the light shielding film hanger applied to the present invention.

15 is a view showing a support structure of the sundown facility material according to the present invention

16 is a view for explaining the arrangement of the support structure of the sundown facility material 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

34.34a: binding member 35: mating surface

36: wire clip 37: contact space

38: pipe coupling portion 40: light shielding film

41: shading curtain hook 42: projection jaw

43: fixed hole 44: fixed stage

50: purlin pipe 51: support pipe

Hereinafter, the present invention will be described with reference to the drawings. Figure 6 is a construction 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 of the ginseng cultivation sunhae facility material according to an embodiment of the present invention. 8 is an example of a facility material coupling state by the coupling member according to an embodiment of the present invention, (a) is a coupling state of the front support, (b) is a coupling state of the rear support (c) is a wire usable as a coupling member This is an example of a clip. 9 is a continuous arrangement state of ginseng cultivation harm planting material according to an embodiment of the present invention. 10 is a cross-sectional view of the applicable light shielding film applied to the ginseng cultivation facility material according to an embodiment of the present invention. 11 is a view for explaining the installable area of the light shielding film for the sunscreen facility material according to an embodiment of the present invention for reference. 12 is a view for explaining the outdoor light transmission state for the ginseng cultivation plant material according to the present invention. 13 is a detailed structure of a typical light shielding film hanger applicable to the present invention. 14 is a reference diagram for explaining a hook state of a light shielding film with respect to the light shielding film hanging tool applied to the present invention. Figure 15 shows the support structure of the sundown facility material according to the present invention, Figure 16 shows the arrangement.

The ginseng cultivation sunscreen facility material according to an embodiment of the present invention, as shown in Figs. 6 to 16, each of the column pipes 31, 31a and rafter pipe 32 that is vertically outward to the ginseng field toad 30 They are separated from each other and consist of separate pipes.

The bottom ends of the pillar pipes 31 and 31a are 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.

And, the front end of the pillar pipes 31 and 31a is formed as a coupling surface 35 bent inward to guide the portion in contact with the rafter pipe 32 to the rigid coupling by the binding member 34 as shown in FIG. The rafter pipe 32 is inclined obliquely and is configured to prevent the weakening of the coupling force caused by the coupling with the column pipe 31.

The coupling of the column pipes 31 and 31a and the rafter pipe 32 is based on the top surface of the tip of the column pipe 31 forming the front post, and the one end of the rafter pipe 32 is formed on the column pipe 31. In contact with the tip is coupled to a separate binding member 34 around the contact point.

The coupling position of the rafter pipe 32 by the binding member 34 extends further forward than the front column pipe 31 to be coupled to form the rafter pipe 32 forward with the front column pipe 31 as an axis. As is formed as anterior struts.

The rear support corresponding to the front support, the other end of the rafters pipe 32 coupled to the front pillar pipe 31 to the separate rear pillar pipe 31a fixed to the ridge 30, the pillar pipe 31 It is configured to be relatively lower than the intersection point of the close contact with the column pipe (31a) by combining the rear pillar pipe (31a) and rafter pipe (32) with a separate binding member (34a) based on the intersection point.

Here, the preferred coupling form of the column pipe 31 and the rafter pipe 32 corresponding to the front post, as shown in Fig. 8 is an elastic coupling form through a wire clip (also called 'aperture').

However, the wire clip 36 may be combined without using a screw or a separate plate-like clip. Wire clip 36 has the advantage that can be combined in a solid state because the construction is simple compared to the other binding members such as tightening the pillar pipe 31 and the rafter pipe 32 with a tightening tightening force.

This is expressed as a specific example in Figure 8, in the case of the front end coupling of the column pipe 31 corresponding to the front post, as shown in Figure 8 (a) by slightly bending the front end of the column pipe 31, the coupling surface 35 By forming a, since the coupling area of the column pipe 31 and the rafter pipe 32 is increased compared to the structure directly coupled with the rafter pipe 32, a more rigid coupling structure can be obtained, The coupling of the corresponding column pipe 31a and the rafter pipe 32 has a structure that intersects as shown in FIG. 8 (b) because the rafter pipe 32 is in direct contact with the inner or outer foot with respect to the pillar pipe 31a. Can be combined in a tight coupling state.

As shown in FIG. 8C, the wire clip 36 has a contact space 37 in contact with the column pipes 31 and 31a, and a pipe coupling portion 38 in contact with the rafter pipe 32. The end can be produced simply by forming the elastic action portion 39 so that the elasticity, the material is suitable to use a rigid elastic wire to increase the tightening force.

The binding members 34, 34a, pillar pipes 31 and 31a rafter pipes 32, etc. of the ginseng cultivation facility according to the present invention are suitable binding members according to the construction conditions of ginseng field. Since it can be applied to select, changing the shape of the binding pipe and the column pipe for strengthening the binding force corresponds to an optional configuration.

9 shows an example of a continuous arrangement of ginseng cultivation sun screening facility material according to an embodiment of the present invention, such a continuous arrangement structure of the sun screening facility has a plurality of column 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 and the rear support are each out at a suitable depth to the toad 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 binding members 34 and 34a are required, but the usable binding member is preferably a wire clip 36 as shown in FIG. Using a clip or the like, the rafter pipe 32 is fixed to the pillar pipes 31 and 31a in an obliquely inclined form. The slope of the rafter pipe 32 is set in consideration of the site climatic conditions of the facility to ensure the maximum inclination possible if the rain or snowy area, and vice versa to reduce the inclination degree. Similarly, the amount of sunshine and the like are also considered as the tilt control criteria.

After mounting the rafter pipe 32 to the column pipes 31 and 31a, the light shielding film 40 is covered thereon. The screen area of the light shielding film 40 is included in the installation area up to the tip end of the rafter pipe 32. Therefore, the light shielding film is hung on the tip end of the rafter pipe 32, or the light shielding film hanger 41 is installed at a suitable position according to the climatic environment as shown in FIG. Fix it.

FIG. 10 is a light shielding film 40 applicable to ginseng cultivation planting facility material according to an embodiment of the present invention. The light shielding film of FIG. 10 is a case of using only one layer of plastic instead of using a separate straw straw or other sunscreen material. In order to use a single light shielding film, a sufficient light shielding effect should be obtained compared to one or more light shielding films. In the case of the present invention, the sunscreen facility expands the entire screen area of the light shielding film and secures the maximum in-flight area of the ginseng field to control the air permeability and the direct sunlight exposure area, thereby achieving the same effect as using more than one light shielding film. . As a result, if a sufficient light shielding effect can be obtained using a single layer of light shielding film, it is possible to manufacture a low cost of the light shielding film as compared with more than one layer of 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. 11 is a planar view of an installable area of a light shielding film for sundown facility materials according to an embodiment of the present invention.

In general, the installable area of the light shielding film is an 'a2' 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 determined according to 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 determined in advance, the distance between landlords can be seen as 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

12 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 sunlight blocking area in the abcd direction to the front of the rafter pipe (32) long Yes, it is shown as an example. In this way, through the expansion of the shading film installation area through the front part of the rafter pipe 32, in particular, in the summer, direct rays of light enter directly between the front shading film and the rear shading film to remove the factors causing high temperature in the ginseng field, effectively preventing the temperature rise in the cabin. Can be.

FIG. 13 is a detailed structure of a typical light shielding film hook 41 applicable to the present invention, and the light shielding film hook 41 is preferably a clip type as shown in FIG. 13. The structure has a projection jaw 42 to hang the light shielding film 40 and a fixing hole 43 is fixed to the rafter pipe 32, the end thereof is a fixed end 44 that can be tightened with a fastening element such as a bolt and Since there is a fixing hole 45, it can be attached to the rafter pipe 32 simply and can be used.

In addition, the clip-type light shielding film hanger 41 can be easily coupled to a rod-shaped pipe such as a rafter pipe 32 and can also be adjusted in position so that the position of the light shielding film 40 can be selected.

14 is for explaining the hook state of the light shielding film through the light shielding film hook 41 applied to the present invention, the light shielding film hook 41 is fixed to the 'A' point of the rafter pipe 32 or 'B' The length of the light shielding film 40 can be selected and adjusted according to the season by fixing it to a point. Even if the light shielding film hook 41 is installed only at the 'A' point of the rafter pipe 32, the tip end of the rafter pipe 32 is fixed. Since only one light shielding film 40 can be fixed from the starting point, only one light shielding film hanger 41 may be provided at the 'A' position of the rafter pipe 32.

15 and 16 show a support structure for reinforcing the vertical load acting on the sundown facility according to the present invention.

Sundown facilities are greatly affected by the natural environment. Strong winds and rains weaken the coupling force of the pillar pipes 31 and 31a, the rafter pipes 32, and the light shielding film 40, and can cause a great damage to the facility, and double snowfall applies a load to the surface of the light shielding film. It is transmitted to the (31) (31a) and the rafters pipe 32, mainly transfers the load to the rafters pipe 32, which causes the rafters pipe 32 is bent or twisted to cause the overall deformation of the sundown facility.

Therefore, an alternative method of installing the duct pipe 50 in the vertical direction is proposed to prevent deformation due to the load transmitted through the light shielding film 40.

However, a structure that prevents vertical load or deformation of the light shielding film 40 by using the purlin pipe 50 structurally crosses one or more purlin pipes 50 in a space formed between the individual rafter pipes 32. It is only a structure for preventing the phenomenon that the light shielding film 40 does not go down, and the load of the snow accumulated on the light shielding film 40 is transmitted to the rafter pipe 32 and the column pipes 31 and 31a. There is no weight reinforcement function, so it is weak structure to prevent deformation of the whole facility.

On the other hand, when the support pipe 51 is installed in the vertical direction of the rafter pipe 32 as shown in FIG. 15, the rafter pipe 32 and the column pipes 31 and 31a supporting the same by the weight load of the light shielding film 40 are provided. It is possible to reduce the damage such as deformation or collapse of the entire facility by dispersing the deformed load transmitted in series, or by reinforcing the sapphire pipe 32.

The installation method of the support pipe 51 according to the present invention is installed at appropriate intervals around the rafter pipe 32 as shown in FIG. 16, and when the purlin pipe 50 is installed on the rafter pipe 32, The structure that supports by forming the tip of the support pipe 51 as a round tip 52 to which the purlin pipe 50 can be fixed so as to support the purlin pipe 50 from the lower part of the pipe 50 is appropriate. Do.

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. Big. 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 prevent the collapse or deformation in a relatively simple structure can be adapted to natural conditions for a long time.

Claims (9)

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, The ginseng plant material for cultivation of ginseng, (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 one end of the rafter pipe is contacted with the tip of the column pipe based on the top of the tip end of the column pipe, and is joined with a separate binding member around the contact point, and the position of the rafter pipe is further forward than the column pipe. Extends and combines to form the pillar pipe with the front pillar in the form of the rafter pipe moving forward. (3) The rear strut corresponding to the front strut is placed on the other end of the rafters pipe in a position lower than the cross point of the pillar pipe in a separate pillar pipe fixed to the ridge, and then closely adhered to the pillar pipe. A sunscreen facility material for cultivating ginseng, characterized by combining the column pipe and the rafter pipe as a separate binding member. The method of claim 1, The hem of the pillar pipe is characterized in that the ginseng cultivation haegeum facility material, characterized in that formed by a pointed wedge-shaped tip. The method of claim 1, The front end of the front column pipe ginseng cultivation haegeum facility material characterized in that it has a coupling surface bent inward to guide the portion in contact with the rafter pipe to the coupling by the binding member. The method of claim 1, The binding member has a contact space in contact with the column pipe, the pipe coupling portion in contact with the rafters pipe, the end of the ginseng cultivation material for planting ginseng, characterized in that the use of a resilient wire clip made of a resilient action portion is applied. . 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, The ginseng plant material for cultivation of ginseng, (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 one end of the rafter pipe is contacted with the tip of the column pipe based on the top of the tip end of the column pipe, and is joined with a separate binding member around the contact point, and the position of the rafter pipe is further forward than the column pipe. Extends and combines to form the pillar pipe with the front pillar in the form of the rafter pipe moving forward. (3) The rear strut corresponding to the front strut is placed on the other end of the rafters pipe in a position lower than the cross point of the pillar pipe in a separate pillar pipe fixed to the ridge, and then closely adhered to the pillar pipe. Combine the column pipe and rafter pipe with a separate binding member, (4) ginseng cultivation sunscreen facility material, characterized in that the rafter pipe is coupled to the clip-type shading film hanger to secure the shading film to the rafter pipe. The method of claim 5, The light-shielding film hanger has a fixing hole fixed to the projection jaw and the rafters pipe can be fixed to the light-shielding film, the end of the ginseng cultivation material for cultivating ginseng, characterized in that the clip consisting of a fixed end that can be fastened to the rafters pipe . The method of claim 5, The sunscreen facility material for ginseng cultivation, characterized in that formed by projecting the projection of the light-shielding film hook directly to the rafters pipe. 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, The ginseng plant material for cultivation of ginseng, (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 one end of the rafter pipe is contacted with the tip of the column pipe based on the top of the tip end of the column pipe, and is joined with a separate binding member around the contact point, and the position of the rafter pipe is further forward than the column pipe. Extends and combines to form the pillar pipe with the front pillar in the form of the rafter pipe moving forward. (3) The rear strut corresponding to the front strut is placed on the other end of the rafters pipe in a position lower than the cross point of the pillar pipe in a separate pillar pipe fixed to the ridge, and then closely adhered to the pillar pipe. Combine the column pipe and rafter pipe with a separate binding member, (4) ginseng cultivation haegeum facility material, characterized in that the support pipe is installed in the vertical direction of the rafter pipe to prevent deformation due to the vertical load transmitted through the light shielding film. The method of claim 8, The support pipe is installed around the rafter pipe, the front end of the ginseng cultivation facility that is formed with a round tip to support the torii pipe from the bottom around the torii pipe.