KR101758111B1 - The traction means having gaebion and its construction methods - Google Patents

Abstract

Disclosure of the Invention The present invention provides a gabion which is used for interior and landscaping by using rigidity and external appearance together with a slope, a wall of a cutter, or a revetment, Gavion, which is equipped with a pulling means which is able to easily construct the site by transporting the Gavion which is completed by stone filling and to shorten the construction time and shorten the working time and to be robust with a small amount of manpower, And a construction method.
The present invention is to improve the disadvantages of conventional garbons and their construction techniques. In particular, the present invention relates to a garbons which are constructed by assembling garbons in a factory which protects workers from snow, rain and wind and has good facilities and working conditions, The present invention relates to a method for producing a gypsum, which is simple and easy to manufacture,
The traction wire constructed in the above-mentioned full-bloom temperature is loaded on the transport vehicle, and the transported to the construction site and the transported gravel temperature are arranged on the ground surface of the river slope or incision site for the gravel- And it is possible to accomplish a quick and stable construction with a characteristic of being able to facilitate the construction work without being affected by the weather of the site and with a small construction work force.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a gantry equipped with a pulling means,

Disclosure of the Invention The present invention provides a gabion which is used for interior and landscaping by using rigidity and external appearance together with a slope, a wall of a cutter, or a revetment, Gavion, which is equipped with a pulling means which is able to easily construct the site by transporting the Gavion which is completed by stone filling and to shorten the construction time and shorten the working time and to be robust with a small amount of manpower, And a construction method.

Gavion for slope, cut-out, or revetment is designed to fill soil, soil, etc. in a hexahedron composed of netting for use as a structure for the purpose of preventing and protecting the soil from leaching of soil surface caused by soil and flood The goby temperature or the gabion constructed as described above is laminated on the incision or the like to prevent the slope of the slope due to rain and waves.

Such a garniture and its construction method are ground clearance steps for arranging a ground of a river slope or incision site where a gabion is constructed as in Prior Art No. 10-1334975 and the applicant's prior art No. 10-0874956 Gabion A gabion assembling step of laying the bottom wire net of the gabion to be constructed on the ground, assembling the front and rear wire nettings and the left and right wire nettings to the bottom wire netting;

Arranging the plurality of assembled gabbets successively so as to be adjacent to each other on a slope or a cutout,

A step of filling the soil between the stones which are filled with the step of constructing the partitioning wire mesh in the assembled gaboid and charging the stone to each space partitioned;

Installing a vegetation coverlet for preventing the seeds from disappearing and preventing soil and sediment outflow through the step of spraying the seeds on the soil, stone, and soil;

And a step of disposing the upper wire net of the gaboid body on the vegetation coverlet and fixing the upper wire net together with the vegetation coverlet to the gaboid body part and the fixed wire, and a gabion gabi construction method and a gabion have.

The problem with this prior art is that, as described above, after manufacturing the front, back, left, right, upper and lower plate members of the garbons or gabbins in the factory, they are transferred to the site to be constructed, The slabs or cut-outs are assembled, and the plate members transported in the above-mentioned ground are arranged on the ground according to the assembly order, that is, sequentially arranged from the bottom plate member together with the arrangement, and the primary top is opened And a plurality of partitions for preventing sliding of the inner filling door when the gauntlet is large or the inclination of the slope is high.

The above-mentioned first assembled gauze is filled with stone, soil, soil and the like, and the vegetation coverlet for spraying or spraying the vegetation seeds on the gravel is installed, and the upper wire net is fixed with the gaiter body and the fixed wire, Complete construction.

In such a case, the assembling work of the gaboid is extremely bad due to the assembling work on the sloping surface of the irregular site and the sun which can not be protected from the snow, rain, etc., resulting in the defect due to the decrease in efficiency and the slip on the slope etc. There is a disadvantage that it takes a lot of work time due to a physical injury caused by a fall or the operation condition is lagged and lacks merchandise due to defects, resulting in poor appearance and robustness after installation.

As described above, the prior art for improving the disadvantages of the Gavion on-site work is disclosed in Korean Patent No. 10-0720746, wherein the edges of the material are formed of a metal beam, thereby exhibiting robustness. However, There is a problem in transport due to the heavy weight with difficulty.

Another patent 10-1329206 discloses a structure for supporting a bottom part in a conventional open-top and a pulling rod penetrating from the supporting member to the upper part so as to be pulled by using a fastening ring fastened to the pulling rod However, there is a disadvantage in that the bottom supporting member has to be supported on the entire bottom surface, and the assembling work to penetrate the draw bar protruding from the plate supporting member is difficult.

Registration No. 10-1334975 Patent No. 10-0874956 Registration No. 10-0720746 Patent No. 10-1329206

Disclosure of the Invention The present invention provides a gabion which is used for interior and landscaping by using rigidity and external appearance together with a slope, a wall of a cutter, or a revetment, Gavion, which is equipped with a pulling means which is able to easily construct the site by transporting the Gavion which is completed by stone filling and to shorten the construction time and shorten the working time and to be robust with a small amount of manpower, And a construction method.

Means for solving the Problems of the Invention The present invention is directed to a method of cutting off snow and rain and arranging the wires (wire or wire) 10 of a zinc plating or alloy material in a rectangular shape at right angles The net member 100 has a predetermined size by welding an orthogonal crossing point of the wire member 10 with an electrical resistance. The net member 100 is formed by stacking the upper and lower plate members 110 and 120, A network reconfiguration step (S10) constituting each member forming the members (130,140) and the left and right board members (150,160);

The front and rear plate members 130 and 140 and the left and right plate members 130 and 140 and the left and right plate members 130 and 140 are formed on the respective sides of the bottom plate member 120 so that the bottom plate member 120, (S20) of arranging the first and second contact members (150, 160) in the vertical direction and then joining the adjoining contact units with each other using any one of a pig tail (200) made of twisted wire or welding or clips.

In a state in which the upper plate member 110 is not coupled to the hexahedron, the upper and lower plate members 130 and 140 at the intermediate position of the hexahedron are moved from the inside to the outside of the hexahedron, A first abutment preventing means (301) formed so that the front and rear plate members (130, 140)

The second folding preventing means 302 configured as described above is formed in a cross shape with the first folding preventing means 301 in the left and right plate members 150 and 160, (S30), which is constituted by fixing the intersections of the first and second ends (301, 302) by welding or tie wires;

A pull wire 400 fixed to the upper plate member 110 to be fixed at an intersection of the first and second fold preventing means 301 and 302 fixed to the bottom member 120 of the hexahedron, Forming a traction wire (S40);

The first and second folding preventing means 301 and 302 formed on the front and rear plate members 130 and 140 and the left and right plate members 150 and 160 and the pulling wire 400, Step S50;

The upper plate member 110 is stacked on the hexahedron with the filling stone 210 filled in the hexahedron and the upper and lower plate members 130 and 140 and the left and right plate members 150 and 160, (S60) of fixing the upper portion of the traction wire (400) and the upper plate member (110) by fixing the upper portion (200)

As described above, the garbage 500 of the finished product filled with the filling stone 210 together with the assembly at the factory is loaded on the transfer vehicle and delivered to the construction site. The garbons 500, which are completed at the construction site, A construction step S70;

In the garbage construction step, a ground surface 600 of a stream slope or a cut-off surface for constructing a garbage temperature is arranged to prevent the outflow of the soil, (S80);

The garbons 500, which have been discharged from the factory and are filled with stone, are successively arranged in a direction set in the left, right, front and rear directions so as to be adjacent to the garbage-supporting surface 610 of the stream ground 600, (S90);

And a plurality of narrowing-down fixing steps S100 for stacking the narrowing portions 500 to be laminated on the upper side of the mutually coupled narrowing portions 500 and fixing the upper and lower reducing temperatures 500 and the left and right narrowing temperatures 500 on the mutual contact surfaces And a pulling means for forming a slope on a slope or a cut-out, and a method of constructing the same.

The present invention is to improve the disadvantages of conventional garbons and their construction techniques. In particular, the present invention relates to a garbons which are constructed by assembling garbons in a factory that protects workers from snow, rain and wind and has good facilities and working conditions. Which is simple and easy to manufacture, is filled with filled stones to complete the garbons,

The traction wire constructed in the above-mentioned full-bloom temperature is loaded on the transport vehicle, and the transported to the construction site and the transported gravel temperature are arranged on the ground surface of the river slope or incision site for the gravel- And it is possible to accomplish a quick and stable construction with a characteristic of being able to facilitate the construction work without being affected by the weather of the site and with a small construction work force.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a flowchart showing steps of a method for manufacturing and installing a garbage formed on a slope or incision in accordance with the present invention; FIG.
2 is a perspective view of a mesh member of an embodiment for constituting a garbons of the present invention.
Fig. 3 is an explanatory view of the configuration of the pulling and folding preventing means of the present invention. Fig.
Figure 4 is an exploded perspective view of a garbage truck towing the present invention.
FIG. 5 is an explanatory diagram according to an embodiment of a pulling-up configuration and pulling-up state according to the present invention; FIG.
FIG. 6 is an explanatory diagram of a clean surface for constructing a pull-in temperature according to the present invention; FIG.
FIG. 7 is an explanatory diagram of a state in which a garbage temperature is applied to a ground such as a cut-out paper using the pull-in garbage temperature of the present invention. FIG.

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

(Wire or wire) 10 of a galvanized or alloyed material is arranged in a rectangular shape in a factory where work and working conditions are good, and the crossed points of the wire 10 are electrically connected The web member 100 may be formed by welding the upper and lower plate members 110 and 120 and the front and rear plate members 130 and 140 and the left and right plate members 110 and 120 with different sizes and shapes. 150, 160), respectively; < RTI ID = 0.0 > (S10) < / RTI >

The front and rear plate members 130 and 140 and the left and right plate members 130 and 140 and the left and right plate members 130 and 140 are formed on the respective sides of the bottom plate member 120 so that the bottom plate member 120, (S20) of arranging the first and second contact members (150, 160) in the vertical direction and then joining the adjoining contact units with each other using any one of a pig tail (200) made of twisted wire or welding or clips.

In a state in which the upper plate member 110 is not coupled to the hexahedron, the upper and lower plate members 130 and 140 at the intermediate position of the hexahedron are moved from the inside to the outside of the hexahedron, A first abutment preventing means (301) formed so that the front and rear plate members (130, 140)

The second folding preventing means 302 configured as described above is formed in a cross shape with the first folding preventing means 301 in the left and right plate members 150 and 160, (S30), which is constituted by fixing the intersections of the first and second ends (301, 302) by welding or tie wires;

A pull wire 400 fixed to the upper plate member 110 to be fixed at an intersection of the first and second fold preventing means 301 and 302 fixed to the bottom member 120 of the hexahedron, Forming a traction wire (S40);

The first and second folding preventing means 301 and 302 formed on the front and rear plate members 130 and 140 and the left and right plate members 150 and 160 and the pulling wire 400, Step S50;

The upper plate member 110 is stacked on the hexahedron with the filling stone 210 filled in the hexahedron and the upper and lower plate members 130 and 140 and the left and right plate members 150 and 160, (S60) of fixing the upper portion of the traction wire (400) and the upper plate member (110) by fixing the upper portion (200)

As described above, the garbage 500 of the finished product filled with the filling stone 210 together with the assembly at the factory is loaded on the transfer vehicle and delivered to the construction site. The garbons 500, which are completed at the construction site, A construction step S70;

remind In order to prevent the outflow of the gravel-like soil, the gravel-like construction step includes arranging the ground 600 of the river slope or cut-out point to be installed in the gravel- S80);

The garbons 500, which have been discharged from the factory and are filled with stone, are successively arranged in a direction set in the left, right, front and rear directions so as to be adjacent to the garbage-supporting surface 610 of the stream ground 600, (S90);

A plurality of gap-tightening steps S100 for stacking the gap 500 to be laminated on the upper side of the mutually coupled gap 500 and fixing the upper and lower gap temperature 500 and the right and left gap temperatures 500 on the mutual contact surfaces,

And a pulling means for forming a slope on the slope or incision, and a construction method thereof.

The present invention can be further embodied by the above-described embodiment, further comprising the step of filling and filling the gaps between the filled stones with the gravel and spraying the seeds on the gravel.

It is to be understood that the binding of each net member 100 can be applied by welding or clipping together with the tightening of the pig tail 200 as shown in the embodiment, It is needless to say that not only the mesh member 100 orthogonal to the mesh member 100 but also a hexagonal mesh member can be applied.

A more specific construction method for the embodiment according to the present invention will be described as follows.

This facade is constructed to protect the slope of the slope, to protect the slope of the slope, to protect the slope of the revetment and the river, and to build up the retaining wall. And a method of constructing the same, which is provided with a pulling means for the purpose of enabling easy construction.

That is, the wire (wire or wire) 10 made of galvanized or alloy material is arranged in a rectangular shape as is known in factories where work facilities and work conditions are good while shutting off snow and rain, .

The net member 100 having a predetermined size is formed by welding an orthogonal intersection point of the wire members 10 arranged in the above with an electrical resistance. The net member 100 has a shape that is different from the size and shape of the top and bottom plate members 110 and 120 The respective mesh members 100 are provided by the mesh reconfiguration step S10 constituting each member forming the front and rear plate members 130 and 140 and the left and right plate members 150 and 160. [

The front and rear plate members 130 and 140 and the left and right plate members 130 and 140 and the left and right plate members 130 and 140 are formed on the respective sides of the bottom plate member 120 so that the bottom plate member 120, (150, 160) are arranged in the vertical direction, and then the adjoining respective contact portions are joined together using a pig tail (200) made of twisted wire or welding or clips to form a hexahedron, (110) constitute a hexahedron in an unmated state.

As shown in FIGS. 3 and 4, in the state where the upper plate member 110 is not engaged, the upper plate member 130 and the lower plate member 130, passing through the intermediate position of the hexahedron, penetrate from the inside to the outside, A first folding preventing means 301 for forming a wrapping portion 310 wrapping the net member 100 by moving and then penetrating the folding portion 310 again to wrap the front and back plate members 130 and 140 in a rectangular shape;

The second abutment preventing means 302 configured in the above-described manner on the left and right abutment members 150 and 160 is formed in a cross shape with the first abutment preventing means 301. [

In the hexahedron, a step S30 of constructing a call preventive means constituted by fixing the intersections of the first and second call preventive means 301 and 302 with welding or tie wires is provided.

And a pull wire 400 (see FIG. 1), which is fixed at the intersection of the first and second fold preventing means 301 and 302 fixed to the bottom member 120 of the hexahedron, (Step S40) constituting the pulling-wire forming step.

The first and second folding preventing means 301 and 302 and the pulling wire 400 may be fixed to the net member 100 by welding or fixing them together or by fastening them with any one of a pig tail 200 or a clip , But it is not limited to the pig tail 200 in the drawing.

The first and second folding preventing means 301 and 302 formed on the front and rear plate members 130 and 140 and the left and right plate members 150 and 160 and the pulling wire 400 are formed in the hexahedron constituted by the above- The top plate member 110 is stacked on the top of the hexahedron in which the filling stone 210 is filled in the hexahedron and the top plate member 210 110 are fixed by using the front and rear plate members 130 and 140 and the left and right plate members 150 and 160 and the pig tail 200 and by fixing the upper portion of the pull wire 400 and the upper plate member 110, The garbons 500 filled with the filler stones 210 are formed in the garbons of the garbons 500 completed in step S60. By performing such a series of operations at the factories, The ability to produce in large quantities is demonstrated and the difficulty of welding So that it is possible to provide a more robust garbage temperature.

In addition, because the work environment is good, workers can work under good condition even in the cold winter season or hot summer season, and the productivity is improved.

As described above, the garbons 500, which are mass-produced in a simple and stable manner, as described above, can be manufactured by using the garbage truck or the crane The vehicle is taken to a transportation vehicle and delivered to the construction site, and the construction is performed in the garbion construction step S70 where the garbion 500 completed at the construction site is taken off.

In order to accomplish such a construction, the garbage construction step includes arranging a ground surface 600 of a stream slope or cutout to be installed in order to prevent the drainage of soil such as rivers, (S80), which are arranged in a sloped or stepped manner, and the garbons 500 are taken off in a state in which the garbons 500 are collected so that they can be obtained.

That is, the garbons 500, which have been discharged from the factory and are filled with stones, are continuously arranged in the left, right, front and rear directions such that the garbons 500 are adjacent to the garrison support surface 610 of the stream ground 600 (S90) for stacking the upper and lower gap temperatures (500) and the left and right gap temperatures (500) on the upper side and the upper side gap temperature (500) (500) secured to the ground (600) are firmly fixed to each other by a plurality of narrow-band bonding steps (S100).

As a result of this binding construction, the gypsum 500 is integrally connected without being detached to satisfy the rigidity.

It is needless to say that the binding in the above may be performed by selecting either binding or clipping using the pig tail 200.

In the above-described embodiment, the base wire rod may be referred to as a wire, and the assembly network member 100 may be welded to the slope or the cut- , Pig tail fastening or clip, and the square net may be formed in a different net shape.

It should be understood that the towing of the garbons 500 can be towed by traction using unshown hooks, a fork of a forklift, or the like.

In the traction method when the garbons 500 of the present invention are loaded and unloaded, the traction wire 400 is fixed by a hook, a wire or the like, and can be easily traced by using a pulling means 410 such as a normal crane or a crane.

In addition, the present invention relates to a gabion of the present invention for constructing a gabion of the present invention for a slope, a wall of a cutout, a revetment, an interior landscape, and the like, and is connected to the gobion so that the gobion can be stably and firmly supported on the slope The anchor rod can be configured to have a slope depth to enhance the robustness.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, And it goes without saying that they belong to the scope of the present invention.

S10; Retinal reconstruction step S20; Cube forming step S30; Constructing Preventive Call Means
S40; Tow wire configuration step S50; Stone filling step S60; Gavion completion stage
S70; Sewage Construction Step S80: Stream Ground Cleaning Step S90; Gavion placement step
S100; Gavion tying stage
10; Wire rod 100; A net member 110; Top plate member
120; A bottom plate member 130; A front plate member 140; Thick plate member
150; A seat plate member 160; A right side plate member 200; Pig tail
210; Fill stone 301; First fold call preventing means 302; The second anti-call means
310; Wrapping part 400; Traction wire 410; Towing means
500; Gavion 600; Ground 610; Gavion support surface

Claims (5)

(10) are arranged in a rectangular shape in a plant having good working conditions and working conditions by cutting off snow, rain, and the like, and a net member (10) welded at an intersecting point of intersection of the wire (10) 100 which constitute the web member 100. The net member 100 includes a mesh reconstitution step S10 of constituting the respective members forming the upper and lower plate members 110 and 120, the front and rear plate members 130 and 140 and the left and right plate members 150 and 160 );

The front and rear plate members 130 and 140 and the left and right plate members 130 and 140 and the left and right plate members 130 and 140 are formed on the respective sides of the bottom plate member 120 so that the bottom plate member 120, (S20) of vertically arranging the first and second contact members (150, 160) in the vertical direction, and then joining the adjacent contact units with each other using a pig tail (200) made of twisted wire or welding or clips to form a hexahedron, A stone filling step (S50) of filling the filling stone (210) within the cavity; And a garbage-on completion step (S60) of the garbage compartment (500) completed with stone filling,

In a state in which the upper plate member 110 is not coupled to the hexahedron, the upper and lower plate members 130 and 140 at the intermediate position of the hexahedron are moved from the inside to the outside of the hexahedron, A first abutment preventing means (301) formed so that the front and rear plate members (130, 140)
The second folding preventing means 302 is formed in a cross shape with the first folding preventing means 301 and the intersection points of the first and second folding preventing means 301 and 302 are welded to the left and right plate members 150 and 160 (S30), which is constituted by fixing with a tie wire;

A pull wire 400 fixed to the upper plate member 110 to be fixed at an intersection of the first and second fold preventing means 301 and 302 fixed to the bottom member 120 of the hexahedron, Forming a traction wire (S40);

The first and second folding preventing means 301 and 302 formed on the front and rear plate members 130 and 140 and the left and right plate members 150 and 160 and the pulling wire 400 form a stone filling Step S50;

The upper plate member 110 is stacked on the hexahedron with the filling stone 210 filled in the hexahedron and the upper and lower plate members 130 and 140 and the left and right plate members 150 and 160, (S60) of fixing the upper portion of the pulling wire 400 and the upper plate member 110 by fixing the upper portion of the pulling wire 400 using the upper die 200 and the upper portion 500,

As described above, the garbage 500 of the finished product filled with the filling stone 210 together with the assembly at the factory is loaded on the transfer vehicle and delivered to the construction site. The garbons 500, which are completed at the construction site, A construction step S70;

In the garbage application step S70, the ground 600 of the stream slope or incision site to which the garbons are to be installed is arranged in order to prevent the discharge of the gravel- Ground clearance step (S80);

The garbons 500, which have been discharged from the factory and are filled with stone, are successively arranged in a direction set in the left, right, front and rear directions so as to be adjacent to the garbage-supporting surface 610 of the stream ground 600, (S90);

And a plurality of narrow-band binding steps S100 for stacking the narrow-width 500 to be laminated on the upper side of the mutually-coupled narrow-band 500 and for fixing the upper-lower folding 500 and the left and right folding 500 at mutual contact surfaces And a pulling means for pulling the slabs. delete delete delete The method according to claim 1,
The goby temperature 500 constituted by the hexahedron constituting step S20 comprises a wrapping part 500 which penetrates the left and right plate members 150 and 160 from the inside to the outside and moves a certain distance from the outside, 310) are formed in a cross shape with the first fold preventing means (301) together with the second fold preventing means

And is composed of a garbage which is fixed at the intersection of the first and second fold preventing means (301, 302) fixed to the bottom member (120) and composed of a cross shape and is fixed to the top plate member (110) Characterized in that it is provided with a pulling means.

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