JP2008038369A - Soil improvement construction method by combination of vegetation net and soft framework - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a soil improvement construction method by combination of a vegetation net with a soft framework for achieving various applications, reducing degree of complicatedness in construction work, and achieving vegetation by a transplanting method. <P>SOLUTION: This soil improvement measure construction method comprises installation of the vegetation net 10, the soft framework 20, and a growth base. The vegetation net 10 is constituted by a hollow three-dimensional bag formed without being bound by form and allows fertile soil containing plant seeds to be put in its inside. The soft framework 20 is composed of a plurality of fixing members 21, a plurality of multidirectional connection rings 22, and a plurality of connection members 23 among the rings. The fixing member 21 is a fixing unit for connecting the multidirectional connection rings 22 and the connection members 23 among the rings mutually and fixes and supports the vegetation net 10 bringing the stable formation by it. The growth base connects the vegetation net 10 with the soft framework 20 to allow plants to grow in a satisfactory and stable condition. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a technical construction method for land improvement measures. In particular, with regard to the technical construction method of land improvement measures construction that uses vegetation and plant growth on the construction site independently or in combination, and forms a three-dimensional shape after the completion of construction, landscape greening and building structures such as earth walls and dikes This is related to the technical method of land improvement measures that can be used for existing vegetation protection and vegetation protection in mountainous areas to be attached to the vegetation.

  There are a wide range of technical construction methods for land improvement measures, including prestressing, free frame construction, and knitting fences. The pre-stress method uses a fixed member pre-stressed to fix and support the frame, and fills the hollow part of the frame with soil and vegetation, and the free frame method uses a fixed rod to form the frame. It is fixed and the soil is usually filled in the hollow part in the same way as the pre-stress construction method, or the sandbag for vegetation is embedded, but the main action of the pre-stressed fixing member is the sliding of the slope Unlike the prevention, the free frame method is only used to protect the slope. In addition, knitting fences are designed to place support bamboo and timber and organize fences for vegetation with soil in order to proceed with greening restoration.

Observing these methods, the following characteristics are basically obtained.
First, planarization is the first. Overall, the surface will be almost flat after completion of construction by each method. The main cause is to work along the slope with the same structure size in order to reduce the complexity of the work. Planarization also has a disadvantage for land improvement, and slopes are susceptible to erosion by rainwater and water currents, reducing slope vegetation. Therefore, in order to protect the effects of construction, the related waterway measures must always be used together.

Second, unity of effect. The above-mentioned land improvement measure construction method is usually applied to slope protection unless it is a specially adapted method, and cannot be moved to use for landscape greening of existing building structures.
3. There are many auxiliary construction items. For example, the pre-stressed frame method casts the frame and always uses the frame plate of the frame, rebar assembly and concrete casting operations when the slope is relatively high or steep and steep. The actual prestressing method is the same.

4. To be greatly restricted by the slope. When knitting fences on steep and steep slopes, it is difficult to install bamboo and timber, and the land improvement work is not excellent, and the vegetation effect is greatly reduced.
5. In order to smoothly proceed with the process work and reduce the labor of the work, or because of the occurrence of falling rocks after completion, removal work must always be performed on the loose rocks, and a large amount of slope arrangement work This is necessary and often a large-scale operation, and it is difficult to dispose of the removed debris.

  The main thing is to vegetate by spraying fertile soil containing seeds. In this regard, it is influenced by the concept of vegetation that evolves from the growth of grass species to the growth of tree species, which is directly related to the assembly structure adopted by the construction method itself. For example, in terms of the assembly structure, the frame hollow portion of the prestressing method is vegetated by a method by spraying or filling, and this is the most appropriate method. Therefore, grass species that grow fast and have a relatively deep root system are mainly adopted, and after waiting for growth, tree species and local plant species are introduced, so that the growth of grass species stabilizes the slope. The vegetation base is formed, and then greening and revitalization work is carried out by introducing various plants. However, this method is very susceptible to the weather and the vegetation effect is difficult to grasp.

Seventh, it cannot be constructed using transplantation methods. From the viewpoint of the assembly structure of each construction method, it is necessary to first grow various plants and then to transplant to the slope, which is quite difficult and uses a specially tailored method. Unless it is, it cannot be constructed.
Known methods for land improvement measures include prestressing method, free frame method, knitting fence method, etc., but there are a variety of methods. It is easy to receive, always use in conjunction with slopes and related canal works to protect the vegetation effect, and increase the amount of work such as removing loose soil before construction. In addition, because it is affected by the geometrical shape of the slope, it is usually necessary to assemble a framework that will help the progress of each construction item. At the same time, each method is basically used only for a single purpose. The construction of the method is difficult.

  The main object of the present invention is a method for diversifying the use and completing the three-dimensional slope, reducing the waterway construction used together, that is, the anhydrous road construction method, and further reducing the complexity of the construction, The present invention relates to a technical method of land improvement measures that can eliminate the assembly work of the framework and can perform vegetation using a transplanting method.

  The technical construction method for land improvement measures of the present invention includes a vegetation net and a fixing member having a flexible frame. The vegetation net is a hollow three-dimensional hull and is the main vegetation. That is, fertilized soil containing plant seeds is filled in the hollow portion of the three-dimensional envelope, a hole is made in the top, and various plants that have already been grown are transplanted. The flexible framework provides stable support to the vegetation net and allows the plants in the net to grow in a stable environment. Further, there are a method in which the nets are produced and combined together so that the net has a certain protective action on the slope, a method in which the nets are produced separately and recombined, or a combination of the methods. Which method is adopted is determined based on the object of use, such as a mountain slope, a structure, or a river.

  The vegetation net is a complex composed of net layers, the geometry of which can be freely changed and is not restricted. The net layer is a flexible and rigid net layer. Flexible nets are made of flexible grid net materials such as futon baskets (square snakeskin) and steel wire, and are made of knitted rice straw and custom soil, natural materials, or sewn with needles. Layers stitched and knitted in a similar manner can be formed and left in the net as a net grid. The bottom soil, natural material covers the straw surface from the top or is placed under the net lattice, or the ground surface, natural material and the straw surface is covered from the top, or placed on the net lattice, Place the soil, natural materials and straw on the bottom. The soil, natural material and straw surface used during this time are used to fill the soil like a bag body, and at the same time, the soil, natural material has a long-term soil retaining action and is filled inside. It is used to prevent the soil that has entered from flowing out, and to make the straw surface have a short-term soil retaining action, a heat retaining action and a moisturizing action. Furthermore, it can be used as a plant fertilizer even after decay, and the effect of vegetation can be promoted. The difference between the rigid net layer and the flexible net layer is only in the net material. The rigid net material is a net lattice knitted with steel or iron wire material, the net body is a hollow solid, and the top surface is a protruding curved surface. The net lattice material of the rigid net layer must be prepared in advance by the method of producing a curved surface, and the same soil as the flexible net layer is sewn together, adopting the custom soil, natural material and straw surface that became a knitted layer . In addition to this, a net lattice knitted from rigid steel or iron material is used, provided that they are in series such as a chain, a gabion, etc., a circle, an ellipse, or a triangle ring. These should be curved surfaces that belong to the flexible net layer, are non-rigid, and can be adjusted by the length of the connecting ring and the distance between the rings, and are sewn together to form a knitted layer. The natural material and the straw surface are the same as described above.

  The vegetation net is formed by a composite with a flexible or rigid net layer. The composite method consists of knitting a net layer with a flexible wire such as a steel wire, a rigid wire formed by wrapping and bundling steel and iron wires, and separately adding a connecting ring for connecting and fixing to the flexible frame, and an intermediate connecting member. The net layer is divided into those which are combined so as to form a hollow solid. In this case, the intermediate coupling member can have a flexible structure or a rigid structure, and the flexible structure is a structure in which end rings are installed at both ends using a rigid wire, and a frame configured by mutual coupling of the rings is used. This frame can be freely changed in shape according to the relationship of the ring nodes. On the other hand, the rigid intermediate coupling member is a fixed frame composed of the same wire material, and its shape cannot be freely changed, and at the same time, the ring installed at each corner end becomes a flexible frame multi-directional connection ring. It is connected. Of course, it is possible to increase the number of rings for further tightly coupling the vegetation net and the flexible frame in the middle of the frame. Whichever method is used to combine plant nets, the best method is to use a flexible net layer at the bottom of the net body, mainly due to the weight of soil filling In order to ensure that the soil and net layer on the bottom slope are in close contact with each other, and that the projecting curved surface and the soil body have better adhesion, the flexibility of the flexible net layer based on the slope geometry It is possible to adjust the size. When the net layer on the top surface of the net body is used on a slope such as a mountain slope, the flexible net layer is the best method. The curved protrusion is excellent for adjusting the rigid net layer, and the net must always be filled with soil in the opening left in advance, but the flexible net layer for bonding of the seal after completion of soil filling Is even easier to use. However, when a net is used for landscape greening of a structure, the use of a rigid net layer is a better method for connection and formation with the structure. In the above description, a method for producing an independent net on a flexible frame is described. However, another method for producing a vegetation net is to use a wire rod so that a member for connecting the rings of a flexible frame becomes an intermediate coupling member for a net layer. Is wrapped and bundled to form a net layer. In its production, various methods can be adopted, but first, the top of the net body, the connecting member between the bottom net layer and the ring is bundled in a form like an open bag, and then, It is connected to an already fixed multi-directional connecting ring, and finally, the bag mouth is filled with soil and vegetated, and the sealing mouth is bundled with a wire rod. The second method completes the connection of the multi-directional connecting ring and the inter-ring connecting member, and then bundles the top net layer of the net body in the form of an open bag with a wire, and moves to the site where it is used. Then, it is fixed with a fixing member, and after fixing is completed, soil is filled and vegetation is performed, and further, the sealing port is bundled with a wire rod. The third method is to first bind the bottom net of the net body to the multi-directional connection ring and the plate-to-plate connection member. Bundling, filling the soil with vegetation little by little, and bundling the seals for each completed net. It should be noted that the net layer of the net body is filled with soil at the time of production and vegetated to make the bottom layer as close as possible to the bottom soil body. In order to be able to form a soil type with the top layer protruding so that it becomes a small hill with wavy undulations, it is necessary to leave a sufficient length of extension beforehand.

  Vegetation nets can be divided into two types: single type and multi-layer type. In the stand-alone type, each net is installed independently, and the left and right and surrounding nets are connected together at the beginning and end. Nets and nets form pits, leaving the pits as drainage channels or sprouting piles, and even when installed by a dense method, use them as windbreak fences for long periods of plant life. Is possible. Another method is to vegetate by covering the flexible net layer by supplementing the soil, and the flexible net layer is a wire or cocoon type wire and is bundled on the peripheral net. In order to avoid long vertical grooves causing erosion, the nets in each layer must be arranged in a displaced manner. The net body has a multi-layer structure in which the upper end of another net body is arranged at the lower end of the net, or the right end is arranged at the right end of another net body, and a linear material or a cage-type wire is bundled. The style is arranged like a fish scale. This method is very useful for preventing water flow stagnation and avoiding rapid concentration of water flow resulting in erosion destruction.

  There is a direct relationship between the vegetation net vegetation method and the net composition method. A vegetation net that is independent from the flexible framework and is connected directly or through an intermediate structure using a net layer is filled with seeds containing plant seeds in the net body, and they are grown and vegetated. Combined with the flexible framework that has been transplanted and fixed. Then, seedlings or wisteria can be transplanted into the hole opened on the net, and after the growth has been stabilized, it can be introduced again to the site by the same method. Of course, it is also possible to transplant the plant directly to the site after completion of soil filling or after transplanting the plant to the net, after the net that is combined with the flexible framework is completely combined and fixed together with the flexible framework The fertilized soil containing seeds must be filled into the hollow bag so that they can grow and grow naturally on site. Similarly, it is possible to transplant a seedling into a hole opened in the net body, but the transplanting method is to cover the soil body of the seedling using the soil and natural materials and stuff it into the net. In addition to the above method, vegetation can be carried out by placing a sprout pile for support on the net body or inserting a skewer, that is, the net is the basis for growth and is fertile. Not only does soil fill and germinate plants to grow, fertile soil can also provide the nutrients needed for the growth and development of transplanted seedlings. In addition, the special composition materials of the net, such as land, natural materials, and straw surfaces, are all based on a good foundation with native plant seeds attached, so the growth of the introduced plant is unexpected. In addition, the seeds of native plants can be implanted in large quantities, and at the same time, the native plants are quick to make up for the shortage in the good soil retention characteristics of the net body and the nutrients necessary for the growth provided by fertile soil. Can grow.

  The flexible framework is basically composed of three types of members. The first is a fixing member, the second is a multidirectional connecting ring, and the third is an inter-ring connecting member. The fixing member is the main source for the flexible framework to stably support the vegetation net. When using it for mountain slope land, use the fixing member selected from the mountain slope ground geometry and soil layer properties. The composition differs depending on the place of use. Taking slopes with relatively deep sliding as an example, usually a pre-stress fixing member is used to prevent or suppress sliding, and for shallow slopes where no sliding phenomenon occurs, the geology is If it is a rock or soil layer, a fixed rod such as a rock nail or a nail can be used. In addition, mortar can be poured into a fixing bar in situations where a large pulling resistance is not required. However, it is important to note that prestress fixing members and fixing rods are parts of components to be fixed. In this construction method, a prestress fixing portion is a more preferable method. In this method, a multidirectional connecting ring is re-installed outside the pressure plate and embedded in the anchor. The next preferred method is to use the multidirectional connecting ring directly as a pressure plate and embed it in the anchor together with the fixing member portion. In this method, the mortar is poured into the fixed reinforcing member, and the pressure plate and the anchor are not installed in this method, but a multidirectional connecting ring and a fixing bolt for use as an inter-ring connecting member must be added. When used for structures, prestress fixing members are not used unless there is a special demand, but the special demand mentioned here is to increase the resistance in addition to the resistance of the structure body. This refers to the case where extra power is required to stabilize the body. Usually, a more preferable method for use in a structure is to embed a short fixing rod in the structure, or to attach a bolt to a through-hole of an existing structure and fix the fixing member with a plate. Whether or not to use the direction connecting ring is determined by the inter-ring connecting member. For example, if a connecting end ring is provided, it is possible to end the fixed member rod on the ring and penetrate the ring with the rod member, and connect the inter-ring connecting member to the rod member for multidirectional connection. There is no need to install a ring. In addition, some fixed rods block the soil wall, which is to drive the fixed rod into the soil layer to stabilize the soil body, spray white paint on the surface layer, or seal the surface. A panel is installed, and a fixing member can be added, or a multidirectional connecting ring can be directly used as a connecting member for preparing vegetation instead of a pressure plate. In the present invention, the fixing member mainly supports the amount of force transmitted by the vegetation net directly or by the inter-ring connecting member. Therefore, the size, type and fixing depth of the rod member based on the magnitude of the pulling resistance force. Is decided. The pull-out resistance is mainly generated by friction, but certain structures have a tensile force on the structural body and fixed rod body, such as drilling holes in existing soil barriers by bolts, washers, chain fixing methods, etc. Support by using strength. In addition to the main fixing member, the auxiliary fixing nail may be increased in order to make the inter-ring connecting member more stable or longer. Auxiliary fixing nails are a chain type using a mortar-casting fixed reinforcement with a curved hook, a frame form in which a sprout pile is driven at the lower end of the rod member to increase the support force, etc. It is determined based on the member. Auxiliary fixing nails are usually a better method when not used in conjunction with a multidirectional connecting ring, which further expands the range of adoption.

  The multidirectional connecting ring is made of a circular, square steel or iron plate. In use, it completely adheres to the fixing member and transmits and converts all the external forces supported on it, and at the same time, it becomes the main connecting member of the flexible frame. A multi-directional connecting ring has various methods for manufacturing. Among them, the first method uses a plurality of circular hole rings on a flat plate as a connecting plate and uses it as a connecting member, and the second method uses a plurality of methods on the flat plate. The third method is to make a cylindrical or prismatic shape and open a plurality of circular holes on the column or weld the arched ring. The fourth method is to make a flat plate in a disc style and open a circular hole ring or weld an arched ring, and the fifth method is a pointed conical ring at the bottom of the flat plate where the hole is opened. However, in any kind of style, the center of the plate must be placed on the fixing member, and a hole must be opened to integrate the connection. Thus, it is referred to as a multi-directional connecting ring, and the plurality of circular hole rings and arcuate rings thereon can be combined with inter-ring connecting members in multiple directions. Further, the inter-ring connecting member thereon can be freely rotated up and down, left and right, and can be used in accordance with the slope and the geometric shape of the structure. There are two methods for connecting the multidirectional connecting ring member and the inter-ring member. One is to make both together, and both perform joint molding first, and then are fixed by a fixing member and moved to the site. The vegetation net composition process is related to these operations, and related details are described in detail in the vegetation net section. The second method is an auxiliary locking method, in which after the fixing member is fixed to the multidirectional connecting ring plate, the inter-ring connecting member is coupled to the attached hook member, which is also related to the vegetation net. The details are described in detail above.

  The inter-ring connecting member is the main member for supporting the connection of the vegetation net, and basically any material can be used as the connecting member under the condition that the net can be connected with sufficient support. It is also possible to make it as a rigid or flexible connecting member. The rigid connecting member is composed of a circular linear rod made of steel and iron materials with rings attached at both ends, and can be made into a single rod type, or combined with a frame type You can also The ring joints installed at both ends are mainly used for ring holes or arched rings of multi-directional connecting rings, both of which are made together as described above, or connected by an attached fastening method, A rod member or a frame is used as an intermediate member that combines the net layers with the net, or a ring coupling part or hook-type attachment member used for attaching to the net is bundled, and the ring coupling part is penetrated by the rod member. Is one of the methods. In addition, it is also possible to weld a plurality of ring joints and use them as connecting members in the form of rods, which can be used to place sprouting piles in the holes of the ring joints or to install mortar-fixed fixed reinforcements The advantage is that it is useful. The composition type of the framework is two rod members connected by soldering uprights, and the ring joints of the plurality of soldered members are connected to a multidirectional connection ring. In addition, there are two types in which the ring coupling portion is provided in an upright manner, that is, a method for coupling with a multidirectional connecting ring, and a method in which the ring coupling portion is attached and fastened. More specially, when they are made together, the net layer of the vegetation net is knitted and wrapped, so that if the fixing member does not increase the difficulty of the construction, completing the knitting wrapping again will not be accompanied. Is a more preferred method. Actually, the framework is combined with the vegetation net together as an intermediate framework for combining the net layers, and then attached to the multidirectional connecting ring after moving to the site and completing the fixing. Can be divided into two types: hollow solids that are filled with soil and used for vegetation, and those that have already been filled with soil and planting seedlings. The latter is one of the transplanting methods. It is. The flexible connecting member is made of steel and iron, and there are various methods. For example, in the form of a plurality of ring joints or chains using rebar wires, the connection method with the multi-directional connection ring is the same as described above, and the connection is based on the attached anchoring method. Such a ring coupling part is installed, which is useful for attached anchoring and there is no great difference in the method of coupling with the vegetation net and the rigid framework. Of course, a transplanting method is also included in this, but an auxiliary fixing nail must be added without fail, and as described above, a method of placing a sprout pile is a more preferable method.

  Regarding the above-mentioned flexible framework, it can be seen from the description of each composition member that the entire framework is flexible, but the main point is the circular ring and the arched ring of the multidirectional coupling ring, and the coupling plate between the plates to be joined The upper, lower, left and right of the intermediate connecting member can be freely rotated. As a result, the flexible frame can be placed better according to the change of the slope, and the close contact with the slope is improved so that the bottom of the vegetation net fits the flexible net layer, even if the change of the slope is too large, the close contact In practice, the purpose of the bonding is achieved by adjusting the degree of extension of the flexible net layer even if it is not good. The flexibility of the flexible net layer can be adjusted and replaced at any time in the field to fit the net layer, which means that the present invention will be more widely applied to slopes with many changes, After the multi-directional connecting ring and the inter-ring connecting member are formed together, the connected flexible relationship provides extremely large compression, which is useful when performing the entire unloading operation. In other words, the flexible frame fixing member is the main member for positioning and supporting the column, and what type of fixing member and fixing depth is adopted is based on the nature of the object to be fixed, the size and quantity of the vegetation net used Can be decided. The strength of the hole ring and the arched ring of the multidirectional connecting ring is determined based on the number of nets as well as the type and size of the inter-ring connecting member. Looking at the overall composition of the vegetation net and the flexible framework, there is independence or adhesion between the two. Independence means that after each flexible frame is made on a net, it is penetrated by a connecting member between rings or a multidirectional connecting ring and integrated, that is, this is a vegetation method in which seedlings are grown and transplanted Good conditions can be provided. Also, the point is in making a vegetation net alone. The seedling transplantation by the net made alone can be used on slopes with slope like the method of laying grass on a plane, and at the same time it aims to provide immediate protection and completion of greening . In the interdependence direction, the flexible or rigid net layer of the vegetation net and the members of the flexible frame portion are combined to form a net, and the inter-ring connecting member, or the multidirectional connecting ring and the inter-ring connecting member, and the flexible net layer It is composed by the three parties. This construction method has to be carried out by a vegetation method that fills the soil at the site, but compared with the independent method, it has more structural variability in adjusting the degree of adhesion with the slope, so vegetation Since the flexible net layer of the net achieves close contact with the slope, it can be replaced at any time with a net layer having an appropriate degree of stretching. Regardless of whether it is independent or interdependent, the form of the vegetation net is not limited, and if it is to be produced according to the landscape designed on the slope, the ring hole of the flexible frame multidirectional connection ring or It is only necessary to adjust the angle and direction of the arched ring, and of course, the angle and direction of the connecting member between the rings will be adjusted at the same time. It can be completely formed according to the design style according to the type and color of the.

  In explaining the composition method of each member of the vegetation net and the flexible framework, how to combine them and usability will be explained in a step-by-step manner. First, a dynamic analysis pattern is constructed. In this pattern, the fixing point formed by the fixing member and the multidirectional connecting ring is regarded as a fixed support, the coupling of the inter-ring coupling member is regarded as a hinge, and the coupling between the vegetation net and the inter-ring coupling member is regarded as a suspension method. Since the connection method between the vegetation net and the flexible framework varies in various ways, only a few types of connection diagrams are given here as examples. In addition, although the bond change is large, there are many similar to the dynamic analysis pattern, so after explaining the method of this technology by a narrative method, the drawing is partially supplemented as a supplementary explanation, and the structural analysis concept Briefly stated.

(1) Drawing The drawings of each member shown in FIGS. 7A, 7B, and 7C narrate that it has many variations. The format shown in the figure is only one of them, and can be used in combination with other technical methods in actual application.
2. FIG. 7A, FIG. 7B, and FIG. 7C are drawn only as a single unit, and as a whole, they are laid continuously based on this single unit method.

(2) Structural analysis (A) Analysis pattern (1) As shown in FIG. 8A and FIG. 8B, the fixed support for connecting the fixing member and the multidirectional connecting ring is based on the hinge connection, and the connecting member between the rings is assumed to be a wire product. To do.

(2) P1 is the amount of force that the net lattice lines of the net layer act on the inter-ring connecting member, and the number thereof is determined based on the number of net lattice lines. The analysis is as follows.
(1) Refer to FIG. W is the surface soil filling weight θ surface inclination angle, and F is the surface soil filling and slope friction force.
(2) Set the number of net lines as N and calculate by the following formula (1).

(3) P2 is the force that the inter-skin connection member acts on the hinge support.
(4) F is a frictional force between the surface fixing member and the formation support.
(1) As shown in FIGS. 10A, 10B, and 10C, a normal net lattice line is R ₁ = R ₂ = 3 / 2P ₁ by a symmetrical method.

  (2) If the fixing member has a circular cross section, the radius is r, and the point A is a curved point, the fixing approach depth is l.

(3) Axial stress σ _n = N / A = axial direction / cross-sectional area Based on the number of net grid lines, the cross-sectional size and the inter-plate connection determination surface size can be determined.
Determine the cross-sectional size of the fixed rod using σ _M = M / Z = P ₂ h / Z = moment / cross-section module.
1. This analysis process is a simplified analysis process. Actually, it has a wavefront shape with a very small plane state, and it is difficult to spread the vegetation net on average. Therefore, the difference in this simplified analysis is not significant.

2. Under certain circumstances, the fixed member becomes the main player in the analysis, and the above analysis becomes an auxiliary analysis. For example, prestress fixing members, rocks, nails and the like.
The effect of the present invention will be explained from a plurality of layer surfaces. First, due to the peculiarity of the vegetation mat and the flexible frame, there is almost no restriction in the range of use. For example, it can be used in existing structures such as when used on slopes having different geometric shapes and properties, or by blocking dirt walls. In construction, components made of nets and frameworks are made in advance, and then moved to the site of use and fixed, reducing the amount of work to be performed together, accelerating the construction speed, and shortening the construction period. Can do. At the same time, after completion, the shape is not a flat surface but a three-dimensional shape, preventing stagnation of the water flow, avoiding erosion due to water flow concentration, and reducing the water channel process to be performed together. Furthermore, in order to form the landscape, adjustments are made by changing the combination of the form of the vegetation net and the flexible framework, and the design that is used regularly and the landscape modeling are the desired designs by arranging appropriate plants through this method. The purpose of greening can be achieved by completing the construction using the breeding transplant in the vegetation effect.

A land improvement measure construction method by combining a vegetation net and a flexible framework according to an embodiment of the present invention is shown in FIGS. 1 to 2 and includes the following features.
The vegetation net 10 is formed by providing a hollow three-dimensional bag that is not restricted by the form, and the top surface and the bottom surface are protruding curved surfaces. Not shown).

  The flexible frame 20 is composed of a plurality of fixing members 21, a plurality of multidirectional connecting rings 22, and a plurality of inter-ring connecting members 23, and the fixing member 21 protrudes downward from above to form the multidirectional connecting ring 22. Is fixed to the ground. The plate surface of the multidirectional connecting ring 22 is provided with a plurality of ring connecting holes 222 for connecting the inter-ring connecting members 23 together to form a stable flexible frame.

The vegetation net 10 is connected to the flexible framework 20 and serves as a base for allowing the plant to achieve good and stable growth.
The vegetation net 10 is further advanced one step to form the vegetation net 10 together with the inter-ring connecting member 23, and the net is directly connected to the multidirectional connecting ring 22 to form one unit. In practice, the vegetation net 10 is divided into two types. First, the constructed vegetation net 10 is first coupled to the multi-directional connecting ring 22, and then transplanted to the site of use and fixed by the fixing member 21. Finally, vegetation is carried out by filling in fertile soil containing seeds. In the second type, first, the multi-directional connecting ring 22 is fixed to the site where the fixing member 21 is used, and then the net already filled with soil and vegetation is combined with the multi-directional connecting ring 22. , It is to make it work together.

The vegetation net 10 may be vegetated by inserting fertilized soil containing seeds, or by inserting a plant into the net by a cutting method, or by forming a sprout pile so as to reach the formation through the net. It has a method of implanting a plant by placing a hole or making a hole in a net.
Since the inter-ring connecting member 23 between the multi-directional connecting rings 22 increases the supporting force, an auxiliary fixing structure can be added (not shown). In addition, the vegetation net 10 can be provided with a movable connecting ring 11 useful for connecting with other structures, and the inter-ring connecting member 23 is further directly brought into contact with the multi-directional connecting ring 22 for contact. A movable locking ring 231 can be installed.

In the vegetation net 10 described above, an independent net layer is installed alone on the flexible framework 20. In fact, as shown in FIG. 3, the vegetation net 10 is provided with a vegetation net 10 composed of a plurality of small nets 10 a in a flexible frame 20, and the small net 10 a is partially connected to the flexible frame 20. It connects with the surrounding vegetation small net 10a, and forms a fish scale-like multilayer.
Furthermore, as shown in FIG. 4, the flexible framework 20 and the vegetation net 10 of the present embodiment exhibit continuous joint installation based on the laying area, and take advantage of the topography by being a flexible framework system. For wide application, it can be installed based on the slope angle as shown in FIG.

  FIG. 6 is a perspective view of the present embodiment in a use state, wherein the vegetation net 10 is a composite composed of a net layer 12 which is further advanced, and the net layer 12 is composed of a flexible net layer and a rigid net layer. The composition is selected from any one of them or a composite form thereof. Further, the fertilized soil 30 is filled therein, and further vegetation 40 is performed, and the fixing member 21 enters deep inside the ground 50 to form a stable structure.

Therefore, the technical means presented by the present invention certainly have the requirements of the invention patent such as inventive step, novelty and industrial applicability, etc., and you can receive a patent from your station as an encouraged invention. If possible, I can't stand thanks.
The drawings and explanations disclosed above are only in the preferred embodiments of the present invention, and changes that have modifications or equivalent effects made by an engineer who is familiar with the technology in this section based on the category of the present proposal are considered in this proposal. Must be included within the scope of the patent application.

It is a perspective view which shows embodiment of the land improvement measure construction method by the coupling | bonding of the vegetation net and flexible frame by one Example of this invention. It is a side view which shows embodiment of the land improvement measure construction method by the coupling | bonding of the vegetation net and flexible framework by one Example of this invention. It is a schematic diagram which shows other embodiment of the land improvement measure construction method by the coupling | bonding of the vegetation net and flexible frame by one Example of this invention. It is a schematic diagram which shows the combination by the some flexible framework of the land improvement measure construction method by the coupling | bonding of the vegetation net and flexible framework by one Example of this invention. It is a schematic diagram which shows embodiment in the different slope of the land improvement measure construction method by the coupling | bonding of the vegetation net and flexible frame by one Example of this invention. It is a perspective view which shows the use condition of the land improvement measure construction method by the coupling | bonding of the vegetation net and flexible frame by one Example of this invention. It is a top view which shows the structure of the land improvement measure construction method by the coupling | bonding of the vegetation net and flexible frame of this invention. It is sectional drawing which shows the flexible framework of the land improvement measure construction method by the coupling | bonding of the vegetation net and flexible framework of this invention. It is sectional drawing which shows the coupling | bonding state of the net layer and the connection member between rings of the land improvement measure construction method by the coupling | bonding of the vegetation net and flexible frame of this invention. It is a schematic diagram which shows the structural analysis of the land improvement measure construction method by the coupling | bonding of the vegetation net and flexible frame of this invention. It is a schematic diagram which shows the structural analysis of the land improvement measure construction method by the coupling | bonding of the vegetation net and flexible frame of this invention. It is a schematic diagram which shows the structural analysis of the land improvement measure construction method by the coupling | bonding of the vegetation net and flexible frame of this invention. It is a schematic diagram which shows the structural analysis of the land improvement measure construction method by the coupling | bonding of the vegetation net and flexible frame of this invention. It is a schematic diagram which shows the structural analysis of the land improvement measure construction method by the coupling | bonding of the vegetation net and flexible frame of this invention. It is a schematic diagram which shows the structural analysis of the land improvement measure construction method by the coupling | bonding of the vegetation net and flexible frame of this invention.

Explanation of symbols

  10 vegetation net, 10a small net, 11 movable connection ring, 12 net layer, 20 flexible frame, 21 fixed member, 22 multi-directional connection ring, 23 inter-ring connection member, 30 fertile soil, 40 vegetation, 50 ground, 221 positioning hole 222 coupling hole, 231 movable locking ring

Claims (11)

(A) a vegetation net (10) that is provided with a hollow three-dimensional bag that is not restricted by the form and is capable of planting fertile soil containing plant seeds for vegetation;
(B) It is composed of a plurality of fixing members (21), a plurality of multidirectional connecting rings (22), and a plurality of inter-ring connecting members (23), and the fixing member (21) is a multidirectional connecting ring (22). And a flexible unit (20) for fixing and supporting the vegetation net (10), which provides a stable formation, and a vegetation net. (10) In land improvement measures construction method by combination with flexible framework,
(C) connecting the vegetation net (10) to the flexible framework (20), and including a step of installing a growth base for causing the plant to achieve good and stable growth; Land improvement measures construction method in combination with.   The vegetation net (10) forms a vegetation net (10) together with the inter-ring connecting member (23), and is a unit for directly connecting the net to the multidirectional connecting ring (22). The land improvement measure construction method by combining with a vegetation net and a flexible framework according to claim 1.   The vegetation net formed by the inter-ring connecting member (23) as a unit is formed by first connecting the formed vegetation net (10) to the multi-directional connecting ring (22) and transplanting it to the site where it is used. (21) is fixed, and the first type in which fertilized soil containing seeds is filled and vegetation is fixed, and the multidirectional connecting ring (22) is fixed to the site where the fixing member (21) is used, and the soil is already The vegetation net according to claim 2, wherein the vegetation net and the vegetation net are completed by joining the multi-directional connecting ring (22) and integrally forming the net. Land improvement measures construction method combined with a flexible framework.   The vegetation net (10) has a vegetation method in which fertilized soil including seeds is filled, a plant is inserted into the net by a cutting method, a sprout pile is placed so as to reach the formation through the net, or a hole in the net The land improvement measure construction method by combining with a vegetation net and a flexible framework according to claim 3, wherein the method is one of a method of planting a plant by opening a ridge.   The vegetation net and flexibility according to claim 1, wherein the inter-ring connecting member (23) between the multi-directional connecting rings (22) can be provided with an auxiliary fixing structure in order to increase a supporting force. Land improvement measures construction method combined with the framework.   The land improvement by combining the vegetation net and the flexible framework according to claim 1, characterized in that the vegetation net (10) can be provided with a movable connection ring (11) useful for connecting with an external structure. Measure construction method.   The said ring connection member (23) is further provided with a movable locking ring (231) for directly hooking and contacting the coupling hole (222) of the multidirectional connection ring (22). Land improvement measures construction method by combining with vegetation net and flexible framework described in 1.   The land improvement measure construction method by combining the vegetation net and the flexible framework according to claim 1, wherein the flexible framework and the vegetation net are continuously connected based on an area to be laid.   9. The land improvement measure construction method according to claim 8, wherein the flexible framework and the vegetation net can be installed according to a slope.   The method of connecting the vegetation net (10) and the flexible framework (20) is that a plurality of small nets (10a) and the flexible framework (20) are connected so that the portion is connected to the surrounding vegetation small net. The land improvement measure construction method by combining with a vegetation net and a flexible framework according to claim 1, wherein a fish scale-like layer is formed. The vegetation net (10) is a composite composed of a net layer (12), and the net layer (12) is selected from one of a flexible net layer and a rigid net layer or a composite form thereof. The land improvement measure construction method by combining with a vegetation net and a flexible framework according to claim 1, wherein

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