KR20060004413A - Building-up type frame construction kit for riparian works or construction preventing landslide, and pro-environmental construction riparian works thereof - Google Patents

Abstract

The present invention relates to a prefabricated frame construction structure suitable for reinforcing and constructing inclined surfaces such as shores, river banks, incisions, etc., wherein the protrusions formed at the corners and intermediate portions of the frame member, the straight member 2, the right angle member 2, Furnace member, 4 furnace member, 2 furnace 2 layer straight member, 2 furnace 2 layer right angle member, 3 furnace 2 layer member, 4 furnace 2 layer member, 2 furnace 2 layer cross member, 3 furnace 2 layer cross member, bracket member By fitting in the inner locking groove of the connecting member formed into a two-layer crossing member, etc., by 1, connects and assembles a plurality of frames firmly in an arbitrary shape, and filling the rubble, crushed stone, etc. inside the assembled frame member The prefabricated frame construction structure for all directions or shore revetment and the frame member are constructed in multiple stages, and a plurality of wooden members are attached to the outer side of the frame member forming the uppermost end with a fastening member. Laying the fabric, the top to accommodate the siksaengdae to provide a construction element for building a breakwater that is environmentally friendly by including a space for the plants can be grown.

Revetment construction, prefabricated rewarding, gabion, gabian

Description

Building-up type frame construction kit for riparian works or construction preventing landslide, and pro-environmental construction riparian works

1 is a perspective view of a frame member which is the main part of the present invention.

FIG. 2 is a perspective view illustrating a portion of the straight member cut into 2 for connecting the frame member of FIG. 1 in a straight line; FIG.

3 is a cross-sectional view showing a state in which two frame members are connected in a straight line by a straight member shown in FIG. 2;

4 is a perspective view of a two-way right angle member for orthogonally connecting the frame member of FIG.

FIG. 5 is a plan sectional view showing an example in which two frame members are orthogonally connected by two rectangular members shown in FIG. 4; FIG.

6 is a perspective view of the three-route member for connecting the frame member of FIG. 1 in three orthogonal directions.

Figure 7 is a perspective view of the four-route member for connecting the frame member of Figure 1 cross-sectional view.

8 is a perspective view of a two-layer straight member for connecting the frame member of Figure 1 overlapping in the vertical direction.

9 is a perspective view of a two-layer right angle member for connecting the frame member of FIG.

10 is a perspective view of a three-layer two-layer member for connecting the frame member of FIG. 1 in three orthogonal directions superimposed in the vertical direction.

11 is a perspective view of a four-layered two-layer member for connecting the frame members of FIG.

12 is a perspective view of a two-layered two-layer crossover member for overlapping the frame member of FIG.

Figure 13 is a perspective view of a three-layered two-layer crossover member for overlapping the frame member of Figure 1 in the vertical direction, connecting the upper and lower crosswise.

FIG. 14 is a perspective view of a bracket member for supporting the frame member of FIG. 1 in another form, and a two-layer intersecting member dedicated to the bracket member; FIG.

Figure 15 is an assembly view for explaining the connection form of the frame member that can be implemented by the present invention.

Fig. 16 is a schematic perspective view showing an example of an environment-friendly revetment construction by the prefabricated frame construction structure of the present invention.

17 is a tomogram of FIG.

It is a schematic diagram which shows the example of relief construction by the prefabricated frame construction structure of this invention.

Fig. 19 is a schematic view showing a construction example of a small retaining wall by the assembled frame construction structure of the present invention.

It is a tomogram which shows the example of a construction of a levee retaining wall by the prefabricated frame construction structure of this invention.

Fig. 21 is a schematic view showing an example of river basin site construction by the prefabricated frame construction structure of the present invention.

Fig. 22 is a schematic diagram showing an example of construction of a free fall bottom of a river by the prefabricated frame construction structure of the present invention.

23 is a schematic view showing an example of pier scour prevention work by the prefabricated frame construction structure of the present invention.

It is a schematic side view which shows the livestock road construction example which replaces the temporary screen of the river by the prefabricated frame construction structure of this invention.

25 is a front view illustrating a construction example of a water flow control beam of a channel by the prefabricated frame construction structure of the present invention.

<Description of the symbols for the main parts of the drawings>

2: frame member 4: notched

6 corner side protrusion 8 middle side protrusion

10: symmetrical protrusion 12: 2 straight member

14 passage 16: projection

18: locking groove 20: fastening pin

22: right angle member with pin ball 24: 2

26: 3 road member 28: 4 road member

30: 2-ro 2-layer straight member 32: 2-ro 2-layer right angle member

34: 3-ro 2-layer member 36: 4-ro 2-layer member

38: 2nd floor, 2nd floor crossing member 40: Communication path

42: 3-way 2-layer cross member 44: Bracket

46: 1st 2nd floor cross member 48: Solid wood member

50: fastening member 52: nonwoven fabric

54: vegetation zone

The present invention relates to a prefabricated construction structure for all directions or revetment construction, and more particularly to a prefabricated frame construction structure for all directions or revetment construction that can be assembled in a three-dimensional lattice shape of various forms, and an eco-friendly revetment construction by this.

Excavated slopes, river banks, and revetments that occur during road construction in mountainous areas should be provided with structures to prevent the collapse of soil. These structures are often used for concrete retaining walls, gabions, revetment blocks, and boulder. Gabion).

Here, since the concrete retaining wall has a drawback of destroying the natural ecosystem, it has been recently constructed only in a limited place.

Since the gabions are constructed by stacking up the crushed stone inside the mesh of wire-shaped squares, they can be very easily constructed and have a good appearance after construction.However, there is a weakness in external forces and landslides are expected. Areas, river flooding areas, etc. have the disadvantage of easy collapse.

The revetment blocks are currently being developed and used in various forms, but they are only suitable for revetments requiring slope stabilization in any way, and cannot be used in places such as mountainous terrain or riversides that are subject to soil pressure.

Rewards have been applied to riverside maintenance work where slopes are not steep, but are being constructed in the form of banks or embankments, but this is difficult to apply to steep slopes and is not used in wet flooding areas due to weak soil pressure.

As described above, the conventional means for building has a disadvantage in that it cannot sufficiently cope with various site conditions.

In order to solve this problem, in recent years, a prefabricated frame made of spherical graphite cast iron is prefabricated and assembled into a continuous box of a predetermined size in the field, and the prefabricated frame is filled with crushed stone, rubble, etc. A construction structure is developed and applied.

The prefabricated frame construction structure may be assembled according to the terrain of the site, and may be implemented in various forms such as slope stabilization, reinforcement reinforcement, retaining wall replacement, temporary screening, anti-wash construction of bridges, and the like. In addition, the spheroidal graphite cast iron that forms the frame has a characteristic that when the water is in contact with the corrosion, the corrosion progresses to a part of the surface and then stops, and then the corroded skin acts as a protective layer, and further corrosion does not proceed. Even after construction, it has a very long service life.

As an example of a known prefabricated frame construction structure, the structures disclosed in Korean Utility Model Registration No. 338825 and Korean Utility Model Registration No. 338827 allow the connection member of the frame to be fitted with a fastening member that acts as a wedge, a latch or a clamp. It is.

Such a structure is difficult to assemble in a form that conforms to the local situation because the connection pattern of the frame is limited to two types of linear and right angle directions, and cannot be internally reinforced, and thus can be implemented in a large area. It is only applied to the terrain to be assembled in the form of a small rectangular enclosure.

An object of the present invention, the connection of the frame can be assembled in a variety of straight line, right angle, three-way intersection, four-way intersection, two-story arrangement, etc., well suited to the topography of the construction site, and assembled to the reinforcement structure inside It is possible to provide a prefabricated frame construction structure for all directions or shore revetment that can be constructed in a large area.

Another object of the present invention is to provide an eco-friendly revetment structure utilizing natural beauty by grafting the growth space of trees to the constructions assembled by the prefabricated frame construction structure.

The present invention, in order to implement the above object, four corner side projections located near the four corners formed with a notch, the middle side projections located above and below the middle portion, and between the corner side projections and the intermediate side projections In order to continuously connect the frame members linearly or three-way or + -shaped, the symmetrical protrusions which are staggered from each other on the upper and lower sides of the upper and lower sides are integrally formed. A straight member having a straight passage in the inner side and having four locking grooves corresponding to the protruding portion of the frame member facing the protrusion formed on the bottom thereof, the straight member being formed at a right angle, and the inner passage bent at a right angle. Two locking grooves corresponding to the protrusions and two locking protrusions integrally formed inside the intersections thereof; Two orthogonal members are arranged so that the locking grooves are open at right angles to each other, and an orthogonal passage in the form of a flat “┻” and two locking grooves on one side are formed inside the orthogonal portion of the passage. It has a three-route member formed at a position where four locking grooves are opposed to each other, and a passage formed to intersect with a + -shape, and the locking grooves having eight open sides facing each other with respect to the projection formed at the inner crossing portion face each other. Including a four-route member formed in a position, and the two-route two-layer formed in the form of the two-way linear member and the two-way right-angle member, the three-role member and the four-role member in the form of a vertically symmetrical direction Straight member, 2-way 2-layer right angle member, 3-way 2-layer member, 4-way 2-layer member, and the upper side is the same shape as the 2-way straight member, the lower side is the middle projection of the frame member, or symmetrical A two-way two-layer intersecting member having a communication path with one locking groove corresponding to the protruding portion formed in a direction intersecting the passage of the upper portion, and the upper portion having the same shape as the three-route member, and the lower portion having one locking groove. Three-way two-layer intersecting member is formed in a direction intersecting the passage of the upper portion and a quadrangle having a shape roughly divided into the frame member, and the corners are formed on the four corners and the corner side projections are formed. And a pair of retaining grooves facing each other at a position adjacent to the protrusion formed on the inner side of the bracket member, the upper side of which is formed with a blocked passage corresponding to the corner protrusion of the bracket member. A communication path in which a pair of locking grooves are formed to face each other includes a two-layer intersecting member, which is formed in a direction orthogonal to the blocked passage.

The present invention of such a configuration, between the frame member and each connecting component, can be implemented in any three-dimensional lattice-like structure in a simple way to fit and connect the projection to the locking groove.

And in the above-mentioned constituent members, the 2-way straight member, the 2-way right angle member, the 3-way member, the 4-way member, the 2-way 2-layer straight member, the 2-way 2-layer right angle member, the 3-way 2-layer member, the 4-way The two-layer member, the 2-way 2-layer crossing member, the 3-way 2-layer crossing member, and the 1-way 2-layer crossing member may each include a pin hole for fitting the fastening pin to an outer predetermined portion, and the fastening pin may be connected to the frame member. Maintains a permanent connection.

In addition, the present invention is formed by assembling a plurality of frame members, cross-connected to each other at the corner portion to form an arbitrary form, a plurality of wood members arranged up and down in the outer side of the frame member disposed on the upper side attached by a fastening member The non-woven fabric is laid on the inner bottom of the frame member to which the wood member is attached, and the vegetation zone is accommodated thereon, so that the plant can grow to include a space for growing.

The present invention of such a configuration can be easily assembled in any form, and can be installed in the reinforcement structure to the inside of the assembled frame member, it is possible to provide a solid construction structure, it can be constructed in a large area Can be.

The objects and advantages of the present invention described above will be better understood through the following embodiments of the present invention.

1 is a perspective view showing the structure of a frame member 2 related to a prefabricated frame construction structure of the present invention, which has a cutout 4 at four corners and is adjacent to the cutout 4. Four corner side projections 6 having a narrow upper side and a wide lower side are installed in the vertical direction, and in addition to the four corner portions of the frame member 2, the upper and lower middle portions have the same shape as the middle side protrusions. (8) is formed, and the symmetrical protrusions 10 are staggered in the mutually symmetrical position at the upper and lower sides between the edge side protrusion 6 and the middle side protrusion 8. Each of these protrusions 6, 8, 10 is integrally formed on the front and back surfaces of the frame member 2.

The frame members 2 of the above-described configuration are arranged in close proximity to each other and connected integrally.

2 shows an example in which the frame member 2 is connected in a straight line, in which case both frame members 2 are supported by the straight member 12 at two.

2, the linear member 12 is formed in the cross-section "┏┓" shape and has a straight passage 14 therein, the projection 16 for maintaining the spacing integrally at the center of the passage 14 In addition, four locking grooves 18 into which the corner side projections 6 are fitted are formed at corresponding positions around the projections 16.

And a pin hole 22 for inserting the fastening pin 20 is formed in the outer side of the straight member 12 in 2. When the two-way linear member 12 is sandwiched between the two frame members 2 and 2, the edge-side protrusions 6 opposed to each other, as shown in FIG. As the groove 18 is fitted, a gap L1 is formed between the two frame members 12 due to the notches 4 and 4.

Therefore, if the length L2 of the straight member 12 is set to 2 slightly smaller than the gap L1, the straight member 12 to 2 is sandwiched between both cutouts (4) and (4) to be combined to form both frame members. (2) It becomes the same plane as the upper surface of (2).

In this way, when the straight member 12 is assembled in 2 and the fastening pins 20 are inserted into the pin holes 22, the fastening pins 20 are both frames as shown by the dashed-dotted lines in FIG. The inner side of the member (2) (2) is caught so that the straight line member 12 to the two to maintain a rigid assembly state that can not be separated from both frame members (2) (2).

Next, when the two frame members 2 are orthogonally connected and assembled, the two right angle members 24 shown in FIG. 4 are used.

2, the right angle member 24 is also formed in a cross-section "┏┓" to hold the passage 14 therein, the passage 14 has a path bent at a right angle. The inner side of the bent portion is formed with integral projections 16 for maintaining the spacing between the two frame members 2, 2, and in the right angle direction centering on the projections 16, the corner side. Two locking grooves 18 into which the protrusions 6 are fitted are formed at corresponding positions.

The locking groove 18 is formed only in a portion adjacent to the projection 16, and formed on the opposite side as the locking groove 18a, one side of which is open, so that both frame members 2 and 2 are smoothly connected.

Of course, the right angle member 24 also has a pin hole 22 into which the fastening pin 20 is fitted.

When the two right angle members 24 having such a configuration are sandwiched between the two frame members 2 and 2 to be arranged orthogonally, as shown in FIG. 5, the outer corner side projections 6 are The two grooves are fitted into the locking grooves 18 of the right angle member 24, and the inner corner side projections 6 are fitted into the locking grooves 18a of which one side is opened.

At this time, the engagement groove 18a, which is open at one side, can absorb an assembly error with the corner side protrusion 6, so that the connection assembly can be performed smoothly.

FIG. 6 shows a three-way member 26 for connecting three frame members 2 in an orthogonal shape on a plane “.”.

The illustrated three-way member 26 is configured such that one passage 14 is further opened in the orthogonal direction in the middle of the two-way straight member 12.

The inside of the three-way member 26 is formed with a locking groove 18a having one side open at a portion where the passage 14 is orthogonal, and a locking groove 18 is formed at the outside of the straight line.

With this configuration, the three frame members 3 can be connected and assembled on a flat "┻", and after assembly, the fastening pins 20 are fitted into the pin holes 22 to be fixed in the above-described example. Is the same as

FIG. 7 shows a four-way member 28 for connecting four frame members 2 in an alternating shape.

The four-route member 28 has four passages 14 intersecting with each other in order to connect and assemble the four frame members 2 crosswise, and the protrusions 16 are located at the center thereof.

Inside the four intersecting passages 14, the locking grooves 18a having one side open are formed. Accordingly, the four frame members 2 are fitted into the respective passages 14, and the corner side projections 6 are formed. The corresponding ones are fitted into the intersecting four-sided arrangement by being fitted into the opened locking grooves 18a.

After the combination by the four-route member 28, the fastening pins 20 are fitted into the respective pin holes 22 to fix the combined state.

Next, an example in which the frame members 2 are overlapped in the vertical direction to be combined will be described.

8 is a perspective view showing the configuration of the two-layer straight member 30 in two for connecting the four frame members 2 in the upper and lower two layers, and combined in a straight line.

The 2-way 2-layer straight member 30 has a structure in which the main part of the 2-way linear member 12 is provided in the vertically symmetrical direction.

That is, the passage 14 formed in a straight line is formed up and down symmetrically, and the locking grooves 18 formed inside each of these passages 14 are also formed up and down symmetrically, and the inner center thereof is also vertically up and down. The projections 16 are formed to be symmetrically protruded.

With this structure, the two-layer two-layer linear member 30 can be combined to arrange the two frame members 2 in two layers through the passage 14 opened up and down.

Of course, when the combination of the frame member 2 is completed, it is the same as in the above-described example that the fastening pin 20 is fitted to each pin hole 22 to secure the combined state.

FIG. 9 is a perspective view showing the configuration of the two-layer right angle member 32 in two, which can connect two frame members 2 in an orthogonal shape, and can be arranged to be overlapped vertically.

The 2-way 2-layer right angle member 32 has a structure provided in the 2-way right angle member 24, for example, the projection 16 formed in the inside of the passage 14, the locking groove 18, and the locking mechanism opened on one side. The grooves 18a and the like are provided in a vertically symmetrical direction.

The two-layer right angle member 32 of the said structure is used to arrange | position superimposed in two layers, when arranging the frame member 2 at right angles.

In the present invention, as in the 2-way 2-layer right angle member 32, a 3-way 2-layer member 34 having the configuration as shown in Fig. 10 is provided.

The three-way two-layer member 34 also has a passage 14, the locking groove 18, and one of the locking grooves 18a having one side open in the same direction as the inner shape of the three-way member 26 in the vertically symmetrical direction. In this case, the frame member 12 can be arranged in two layers in the upper and lower layers.

Similarly, a four-way two-layer member 36 formed as shown in FIG. 11 is prepared to have the four-way member 28 in the vertically symmetrical direction.

The four-way two-layer member 36 also has the same internal shape as the four-way member 28, and the passages 14 intersected with each other, the locking grooves 18a having one side open to the corners of these passages 14, and the like are placed in the vertical direction. It is formed symmetrically.

In addition, as shown in FIG. 12, three frame members 2 can be arranged in a two-layered intersection with the middle projection 8 of the frame member 2 or the symmetrical projection 10 as a starting point. It is further provided with the 2-way | two-layer crossing member 38.

The upper portion of the two-way two-layer intersecting member 38, the locking groove 18 is formed on both sides of the projection 16 in the inner side of the passage 14, similar to the two-way straight member 12, The lower side further includes a configuration in which a communication path 40 having one locking groove 18 is opened in a direction crossing the passage 14 so as to correspond to the intermediate protrusion 8 or the symmetrical protrusion 10. Doing.

The present invention is another form of the two-layer cross member, a three-layer cross member 42 is further provided as shown in FIG.

The upper portion of the three-way two-layer intersecting member 42 is formed in the same way as the three-way member 26 by the passage 14 formed in the shape of a flat “┻” shape, and the locking groove ( 18) and the locking groove 18a which one side was opened, and the lower part is comprised by the communication path 40 provided with the one locking groove 18. As shown in FIG.

The communication path 40 is a direction intersecting the long side of the three paths of the passage 14, and is disposed in a direction parallel to the short side of the three paths.

Finally, the present invention further includes a bracket member 44 having the configuration as shown in FIG.

The bracket member 44 is formed in a quadrangular shape having approximately half the frame member 2, and has a configuration in which a notch 4 and a corner side protrusion 6 are provided at four corners.

The bracket member 44 is a 2-way straight member 12, 2-way right angle member 24, 3-way member 26, 4-way member 28, 2-way 2-layer straight member 30, 2-way Via a two-layer right angle member 32, a three-way two-layer member 34, a four-way two-layer member 36, a two-way two-layer cross member 38, a three-way two-layer cross member 42, etc. The frame member 2 or the other bracket members 44 may be connected to each other, except that the symmetrical protrusion 10 of the frame member 2 is connected to the upper or lower side of the bracket member 44. As an example, a two-layer crossing member 46 is further provided.

The two-layer intersecting member 46 of the 1-way has a protrusion 16 formed inside the blocked passage 14, a pair of locking grooves 18 facing each other, and at the same time, the communication formed intersecting the opposite side. The pair of retaining grooves 18 are also formed to face the inside of the furnace 40.

An assembly aspect of the frame member 2 that can be implemented by the present invention having the configuration as described above can be described with reference to FIG.

As shown in Fig. 15, when connecting several frame members 2 in a straight line, two straight members 12 are interposed between two adjacent sides of each frame member 2.

Moreover, when assembling and connecting in a grid | lattice form, when two frame members 2 are orthogonally arrange | positioned, the right-angled member 24 by 2 is interposed in every crossing edge, and similarly the 3-way cross section is a 3-way member By 26, the cross cross section of the center is assembled by the four-way member 28. As shown in FIG.

And when the frame member 2 is superimposed in two layers, the two-layer two-layer linear member 30, the two-layer two-layer right-angle member 32, the three-path two-layer member 34, four-layer two-layer member When 36 is applied and the bracket 44 is connected, a dedicated 1-way 2-layer crossing member 46 or 2-way 2-layer crossing member 38, or 3-way 2-layer crossing member 42 is appropriately used. As a result, any shape in which the corners are connected at right angles can be assembled.

In addition, the frame member 2 includes a corner side protrusion 6, a middle side protrusion 8, a symmetrical protrusion 10, and the like, which protrude outwards at the time of assembly, and each of the straight members 120, 2, and right angle members. 24, three-route member 26, four-route member 28, 2-ro 2-layer straight member 30, 2-ro 2-layer right angle member 32, 3-ro 2-layer member 34, 4-ro 2- Since it fits into the locking groove 18 formed in the layer member 36, the 2nd 2-layer crossing member 38, the 3rd 2-layer crossing member 42, the 1st 2-layer crossing member 46, etc., it shakes at all. Without this, a solid assembly is realized, and by the fastening pins 20 fitted into the pin holes 22 after the assembly is completed, the assembled state is preserved so as not to be separated naturally.

The prefabricated frame construction structure of the present invention, as described above, the frame member 2 and various kinds of connecting members 12, 24, 26, 28, 30, 32, 34, 36 and 38 (42) (44) (46), or when the frame member is connected to a construction site in actual practice, all of the various types of connection members may be used, or a form that conforms to the terrain of the construction site. Only a few connecting members necessary for assembling the furnace frame member may be selectively used. Thus, rubble, crushed stone, etc. are also filled inside the prefabricated frame construction structure of the present invention assembled in an arbitrary shape to reinforce and stabilize the slope. It is used for construction and river banks.

As described above, an optimal embodiment in the case of applying the prefabricated frame construction structure of the present invention, which is assembled and formed in an arbitrary form, to the coastal relief structure, is assembled by the frame member 2, as shown in FIG. The wooden member 48 is attached to the outer side of the frame member 2 from the upper side of the revetment structure to be attached by the fastening member 50 to be arranged up and down in number.

The revetment construction body of such a structure, as described in detail with the inner side of the frame member 2 to which the wooden member 48 is attached, as shown in FIG. 17, lays the nonwoven fabric 52 on the bottom and the vegetation zone 54 thereon. By accommodating and allowing plants to grow, it becomes a coastal building body with an eco-friendly element.

The nonwoven fabric 52 contains moisture in the ground, so that plants can germinate and grow from the vegetation zone 54 so that absolute water supply can be sufficiently provided.

The environment-friendly revetment building body of the above-mentioned embodiment can obtain a particularly good effect when applied to river banks, slopes of lakes and the like.

The prefabricated frame construction structure of the present invention is not limited to the above-described embodiment, and removes environmentally friendly elements from FIG. 17, and fills crushed stone, rubble, and the like with the construction structure formed by the inclined surface of the lake as shown in FIG. 19. It can be carried out with a loading structure.

In the construction of the retaining wall, the granules are assembled to form a layer, as shown in Fig. 19, and in the coarse-ground reinforcement construction work of rivers, as shown in Fig. 20, the granules are assembled in such a manner as to generate a plane having a sufficient area to be filled with rubble. do. In this case, when the bracket 44 is attached to the inside of the space partitioned by the frame member 2, the binding force with the rubble is thereby strengthened, and the firm construction does not swept away from the pressure of the soil by heavy rain. Can be implemented as

In addition, the prefabricated frame construction structure of the present invention can be utilized for the construction of a free fall bottom in a narrow stream surrounded by concrete retaining walls, as shown in FIG. In this case, it is important to cover the outside of the rubble retained and accommodated by the frame member 2 assembled with the bottom free fall hole with a net or the like so as not to be lost.

In addition, the prefabricated frame construction structure of the present invention is a construction of a small retaining wall as shown in Figure 22, Figure 23 is a reinforcement construction of the slope of the downtown Fujie stream as shown, as shown in Figure 24, as a scour prevention structure of the existing piers It may also be practiced.

As shown in Fig. 25, when constructed in a cross-sectional pyramid shape, the temporary clogging performed before the embankment construction can be replaced. In this case, the temporary clogging performed by the prefabricated frame construction structure of the present invention is the flow of water in the stream. Since the construction is performed without blocking, the construction can be performed quickly and easily.

As described above, the present invention is a prefabricated frame construction structure which assembles several basic unit molded bodies into a continuous arbitrary form, and fills rubble, crushed stone and the like therein, and the connecting direction of the frames is linear, perpendicular, It can be assembled in various shapes such as “┻” phase and “╋” phase, so that it can be assembled and constructed to match any terrain. In addition, it can be connected in a two-layer structure as well as a reinforcement structure inside the grid. Since it can be assembled can be constructed as a large-scale construction structure.

In addition, since the connection between the frame member and the connecting member is performed by the fitting between the protrusion and the locking groove and the simple and easy manual insertion of the pin into the pin hole, even an inexperienced person can efficiently construct it.

In addition, the frame member, which is maintained by the pins, has the result that the force to withstand external force is significantly increased as compared with the conventional structure, and even when installed in the constant flooding area of the river, there is no assembly disassembly due to running water. The advantage is complete protection.

Moreover, the revetment building body formed of the prefabricated frame building structure of the present invention has a feature that also has an environment-friendly space in which plants can be grown on the upper side.

Claims (4)

Four corner side protrusions located near the notched four corners, the middle side protrusions positioned substantially above and below the middle portion, and the symmetrical protrusions alternately located at the upper and lower sides between the corner side protrusions and the middle side protrusions, respectively. A frame member integrally formed at each predetermined location; Cross section inside

A two-way linear member having a straight passage formed on a ┏┓ ', and having four engaging grooves corresponding to the projected portion of the frame member facing each other with a projection protruding from the bottom inside the passage; A passage is formed inside the cross-section “┏┓” and the middle is bent at right angles, and two locking grooves corresponding to the protrusions and two ones are centered on protrusions formed integrally inside the bent portion. A two-way right angle member in which the open locking grooves are arranged to be perpendicular to each other; It has an orthogonal passageway in planar "2", and two locking grooves open at one side inside the passage extending at right angles, and four locking grooves are formed at opposite positions inside the straight passage. 3 furnace members; A four-route member having passages intersecting on a plane “╋” and formed with positions at which eight engaging grooves are opened to face each other with a projection formed at an inner intersection portion; A two-layered two-layered linear member having a shape in which the two-membered linear member is superimposed in a vertically symmetrical direction; A two-layer right angle member having a shape of overlapping the two-way right angle member in a vertical symmetric direction; 3-way 2-layer member having a form in which the 3-way member is overlapped in a vertically symmetrical direction; 4-way 2-layer member having a form in which the 4-way member is overlapped in a vertically symmetrical direction; The upper part has the same shape as that of the straight member 2, and the lower part has a communication path having one locking groove corresponding to the middle projection of the frame member or the symmetrical projection of the frame member in a direction intersecting the passage of the upper portion. Furnace two-layer cross member; An upper side part having the same shape as the three-way member, and a lower part having a three-way two-layered cross member formed in a direction in which a communication path having one locking groove intersects the passage of the upper part; A bracket member formed of a quadrangular shape having approximately half the frame member, and having a cutout and a corner side protrusion formed at four corners; The upper portion is formed of a blocked passage corresponding to the corner protrusion of the bracket member, and a pair of locking grooves are formed to face each other with a protrusion formed inside the passage, and the lower portion has a pair of locking grooves inside. A prefabricated frame construction structure for four-sided or shoreline construction, in which a communication path facing each other has a one-way two-layer crossing member formed in a direction orthogonal to the blocked passage. The method according to claim 1, wherein the 2 road straight member, the 2 road right angle member, the 3 road member, the 4 road member, the 2 road 2 layer straight member, the 2 road 2 layer right angle member, the 3 road 2 layer member, the 4 road 2 layer member, Prefabricated frame construction for all directions or revetment construction, characterized in that the pin hole for inserting the fastening pin is drilled in each of the outer predetermined portions of the 2-ro 2-layer crossing member, 3-ro 2-layer crossing member, and 1-ro 2-layer crossing member. Structure. The method according to claim 1, wherein the 2 road straight member, the 2 road right angle member, the 3 road member, the 4 road member, the 2 road 2 layer straight member, the 2 road 2 layer right angle member, the 3 road 2 layer member, the 4 road 2 layer member, Prefabricated frame construction for all directions or revetment works, characterized in that the external dimensions of the 2-way 2-layer cross member, the 3-way 2-layer cross member, and the 1-way 2-layer cross member are set smaller than the cut-out dimensions of the frame member. Structure. A plurality of frame members are cross-connected to each other at the corners to form an assembled shape, but the plurality of wood members are arranged up and down to the outside of the frame member disposed on the upper side to be attached by a fastening member, and the wood An environmentally-friendly revetment building comprising a nonwoven fabric placed on the inner bottom of the frame member to which the member is attached, and accommodating vegetation zones thereon to allow the plant to grow.

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