KR100696074B1 - Anchor for reinforcing a slope - Google Patents

Abstract

The present invention relates to an anchor inserted into the interior of the inclined surface together with the anchor rod for the construction of the surface reinforcing structure of the inclined surface, and more specifically, the drawing on the rear side of the anchor body having a conical or pyramidal shape Separate anchoring work is provided by fixing the spreading blades that extend in both directions at the time of installation, and on the anchor rod that is slidably inserted through the anchor body, and a spreader that pushes both fixing blades in the unfolding direction when the anchor body is pulled out. Insert the anchor directly on the inclined surface without performing the anchoring, and at the same time, the anchoring force to the anchoring end can be expressed through the anchor rod, thereby maximizing the tensile force expressed by the anchor rod And easy installation and reinforcing work without grouting It is possible to reduce the time and cost according to the reinforcement of the surface to the maximum, and the spreading operation of the fixing blades can be performed quickly and accurately by the pull-out force by the spreader, so that the time and cost of the reinforcement of the slope It relates to a slope reinforcement anchor that can contribute even more to savings.

Slope reinforcing anchor according to the present invention, a conical or pyramidal anchor body 11 is inserted into the inclined surface together with the anchor rod 16, a pair of the rear both sides of the anchor body (11) The fixing blade 12 is installed so as to enable hinge-type angular movement about the rotation shaft 14, and the free end of the fixing blade 12 is formed of a sharp acute penetration penetrating blade 12a, When the anchor body 11 inserted into the anchor rod 16 is drawn out by the anchor rod 16, the pair of fixing blades 12 is fixed to be unfolded in both directions, and the anchor rod 16 is the anchor body 11 It is inserted through the central portion of the anchor body 11 so as to be slid forward and backward by a predetermined width along the (), the front end of the anchor rod 16 of the anchor rod 16 when the anchor body 11 is drawn out A stopper 18 is fixedly installed to prevent separation, Between the pair of fixing blades 12, a spreader 17 for pushing the fixing blades 12 in both directions when the anchor body 11 is pulled out is fixedly installed on the anchor rod 16. In addition, the spring 19 is installed between the spreader 17 and the rear side of the anchor body 11 so as to be elastically interposed.

Anchor, Earth Anchor, Soil Nail, Rock Bolt, Shotcrete

Description

Anchor for reinforcing a slope}

1 is a side view showing a folded state reinforcing anchor according to the present invention.

Figure 2 is a side view showing a state in which the anchor for slope reinforcement in accordance with the present invention.

<Explanation of symbols for main parts of drawing>

10 anchor 11 anchor body 12 anchoring wing

12a: penetration blade 13: connecting bracket 14: rotating shaft

15: support jaw 16: anchor rod 17: spreader

18: stopper 19: spring

The present invention relates to an anchor inserted into the interior of the inclined surface together with the anchor rod for the construction of the surface reinforcing structure of the inclined surface, and more specifically, the drawing on the rear side of the anchor body having a conical or pyramidal shape Separate anchoring work is provided by fixing the spreading blades that extend in both directions at the time of installation, and on the anchor rod that is slidably inserted through the anchor body, and a spreader that pushes both fixing blades in the unfolding direction when the anchor body is pulled out. By inserting the anchor directly on the inclined surface without performing the anchoring, the anchoring wing can be unfolded at the same time so that the anchoring force can be expressed through the anchor rod, thereby maximizing the tensile force expressed by the anchor rod. Quick and easy installation and reinforcement work without grouting are possible. It is possible to reduce the time and cost according to the reinforcement of the surface to the maximum, and the spreading operation of the fixing blades can be performed quickly and accurately by the pull-out force by the spreader, so that the time and cost of the reinforcement of the slope It relates to a slope reinforcement anchor that can contribute even more to savings.

In general, when some of the slopes of the mountain slopes or hills are damaged by natural disasters such as heavy rains or floods, the damaged slopes are shaved by a certain amount, and soils are filled in the areas to form new slopes. In the case of opening a new lamp, the slope of the mountain slope or hill is cut by a certain amount to flatten the open surface, and the remaining part is formed as a new slope, and it is formed near the river or lake to prevent the flooding of the river and to use the water resources. Old banks and embankments also have slopes due to sediment fill.

In the case of leaving the soft slope of the fill area or cut area formed as a new terrain by cutting or filling up the soil as mentioned above, the slope of the slope is easily lost due to various causes such as heavy rain or flood. Not only do they have to perform the work frequently, but in severe cases there is a high risk of collapse of the inclined surface of the earth, which can cause enormous life and property damage.In addition, a separate reinforcing structure is installed on the inclined surface to prevent surface collapse of the inclined surface in advance. shall.

As a method for installing a reinforcing structure on the inclined surface as described above, after drilling a plurality of holes on the inclined surface, the steel rod or steel rod is inserted into the perforated hole and then forced to inject concrete or mortar to support the inclined surface Either an anchor anchor method, a soil-nailing method or a rock bolt method that inserts a steel bar into a drilled hole and then places shotcrete along the slope. Known.

However, the conventional inclined surface reinforcement method as described above should not only perform a drilling operation for inserting a reinforcing material such as a steel bar or steel bar or rock bolt on the inclined surface, but also a reinforcing material such as a steel bar, steel bar or rock bolt on the perforated hole. The grouting operation of consolidating the concrete or the mortar is condensed so as to fix the grout, so that the cost of the reinforcement of the inclined surface is high.

In addition, in the grouting process of concrete or mortar through the perforated hole, a large amount of cement leaks to the outside of the inclined surface, causing deterioration of working conditions and causing environmental pollution, and fixing anchors by concrete or mortar. Even after the work is done, most of the shotcrete work finishes the exterior wall, so the surface of the inclined surface is very ugly to create anxiety visually, and the growth of grass and wood plants is almost impossible to cause environmental damage. There was a problem.

In particular, the reinforcement used in the earth anchor method, the small nailing method, or the rock bolt method has a very simple structural role. Therefore, when the grouting is not performed properly, the reinforcement of the slope by the reinforcement can be properly achieved. Not only could there be a problem, but also it could not support various reinforcement structures constructed along the surface of the inclined surface with a strong tensile force, causing serious problems causing the collapse of the inclined surface.

In other words, grouting is performed by consolidating concrete or mortar into a drilled hole into which iron bars, steel bars, or rock bolts are inserted, so that the reinforcement is solidified with concrete or mortar. Since the reinforcing function of the inclined surface is performed only by the tensile force by the frictional force with the reinforcing material such as steel bars or steel bars or rock bolts, the structural role of the reinforcing material becomes very simple and the reinforcing performance of the inclined surface is significantly lowered.

In practice, the tensile strength of the steel bar itself having a diameter of 25 mm is about 10 tons (ton), but when the steel rod having the same diameter is fixed to the punching hole by grouting, and then tested for tensile strength, it is about 3 tons The degree of tensile strength alone caused the steel rods to escape from the solidified concrete or mortar, thereby exposing many problems to the actual slope reinforcement.

In order to solve the conventional problems as described above, a rod connecting rod for connecting and fixing the anchor rod is installed on the rear side of the anchor body having a cone or pyramid shape, and both sides thereof when the anchor is inserted through the inclined surface By installing the wing plate to be unfolded, the anchor is directly inserted to the inclined surface without performing a separate drilling operation to extend the wing plate and at the same time the tension force using the anchor as the anchoring end can be expressed through the anchor rod, thereby The slope reinforcement anchor is designed to maximize the tensile force developed by the rod and to enable quick and easy installation and reinforcement work without grouting, so that the time and cost of reinforcing the slope can be reduced to the maximum. Filed in 2005 Patent Application No. 81602 (Application date: September 02, 2005) Uh it is known.

However, the slope reinforcing anchor selected by the present applicant is to insert the anchor body with the anchor rod into the interior of the inclined surface, so that a pair of wing plates to be unfolded in the process of pulling the anchor rod exposed to the outside of the inclined surface However, there was a problem that the unfolding operation of the wing plate depends only on the pulling force acting on the anchor rod, and thus, even if a relatively strong drawing force is applied to the anchor rod, the fast and accurate unfolding action of the wing plate and the resulting firm anchorage of the anchor are somewhat There was a problem of becoming difficult, and a new structure of the anchor to compensate for this was required.

The present invention has been made in order to supplement the problems of the above-described application, the slope reinforcing anchor according to the present invention is unfolded in both directions when the drawing on the rear side of the anchor body having a cone or pyramid shape On the anchor rod that is fixedly inserted through the anchor body and is slidably inserted through the anchor body, the spreader which pushes both fixing blades in the unfolding direction when the anchor body is pulled out is fixedly installed. By inserting the anchor directly, the anchoring blade is unfolded and the tension force using the anchor as the anchoring end can be expressed through the anchor rod, thereby maximizing the tension force expressed by the anchor rod, and thus, quick and easy installation and grouting of the anchor Time required for reinforcing construction of inclined surface by enabling unnecessary reinforcement work It is possible to reduce the cost to the maximum, and by spreading the fixing blades can be performed quickly and accurately with a small pulling force by the spreader, so as to contribute more significantly to the time and cost savings due to the reinforcement of the slope It is the technical problem to do it.

The present invention for achieving the above technical problem, the anchor body of the conical or pyramidal shape is inserted into the interior of the inclined surface together with the anchor rod, a pair of fixing blades on both sides of the rear of the anchor body around the rotation axis The hinged angular movement is connected and installed, and the free end of the fixing blade is formed as a penetrating blade forming a sharp acute angle, when a pair of fixing blades are drawn out when the anchor body inserted into the inclined surface is drawn by the anchor rod. In the expansion and fixed in both directions, the anchor rod is inserted through the center portion of the anchor body so as to be slid forward and rearward by a predetermined width along the anchor body, the anchor rod at the end of the anchor rod when the drawing of the anchor body A stopper is fixedly installed to prevent separation of the anchor rod, and the anchor body is disposed between the pair of fixing wings. It is characterized in that the spreader for pushing the fixing blades in both directions when drawing is fixed on the anchor rod, characterized in that the spring is installed between the spreader and the rear side of the anchor body to be elastically interposed.

Hereinafter, described in detail with reference to the accompanying drawings, the present invention for achieving the above object is as follows.

1 is a side view showing the folded state reinforcing anchor according to the present invention, Figure 2 is a side view showing the expanded state reinforcing anchor according to the present invention.

Slope reinforcing anchor according to the present invention, as shown in Figure 1, for the insertion of the anchor 10 by a variety of hitting equipment or vibration consolidation equipment, such as a cone or a pyramid, or the like, the tip of which is sharpened Anchor body 11 is formed in the shape of, the rear side of the anchor body 11, the connecting bracket 13 for the connection of the fixing wing 12 is formed integrally with the anchor body (11), Due to this, the portion where the connection bracket 13 is simply formed from the anchor body 11 forms the support jaw 15 of the fixing blade 12 during the unfolding operation of the fixing blade 12.

In addition, each of the connecting brackets 13 formed at both rear sides of the anchor body 11 is installed so that the fixing blade 12 is rotated by a predetermined angle by the rotation shaft 14, the fixing blade ( The rotation range of 12) is from the position where the respective fixing blades 12 face each other as shown in FIG. 1 and maintains a vertical state, and each fixing blade 12 is anchored as shown in FIG. While being supported by the supporting jaw 15 of the main body 11, it becomes the range of approximately 90 degrees angle to the position which maintains a horizontal state.

In addition, the fixing blade 12 is formed to be inclined downward toward the anchor rod 16 on the basis of the folded position shown in Figure 1, so that its free end, that is, the rear end is a sharp acute angle of penetration penetrating blade (12a) In the process of drawing the anchor body 11 together with the anchor rod 16 after insertion of the anchor 10, each anchoring blade 12 is easily caught on the soil ground or rock layer. , So that each fixing wing 12 can be unfolded while permeating easily into the soil ground.

In addition, the anchor rod 16 is inserted through the central portion of the anchor body 11 so as to be slidable forward and rearward by a predetermined width along the anchor body 11, and is installed at the front end of the anchor rod 16. A stopper 18 is fixedly installed to prevent the anchor rod 16 from being separated when the anchor body 11 is drawn out by the rod 16, and an anchor rod corresponding to the pair of fixing blades 12 ( 16, the spreader 17 is fixed to push the fixing blades 12 in both directions during the sliding operation of the anchor rod 16 for drawing the anchor body 11.

The sliding width of the anchor rod 16 is limited by the stopper 18 and the spreader 17 within a range in which the fixing blade 12 can be unfolded by the spreader 17, and the stopper 18 and The spreader 17 may be fastened to the anchor rod 16 by means of a nut or the like, and the anchor rod 16 may include a separate protruding means caught by the front and rear ends of the anchor body 11. It can also be fixed on the welding, the tip of the anchor rod 16 is formed sharply to assist the insertion of the anchor 10 through the inclined surface.

The anchor rod 16 may be formed in the entire length for inserting the anchor 10 to the inside of the inclined surface by the required depth, and the anchor rod 16 of a relatively short length is assembled together with the anchor body 11. Then, the steel rods or iron bars of the remaining length necessary for the insertion of the anchor 10 may be separately connected to the rear end of the anchor rod 16, and in most cases, the type of inclined surface to which reinforcement is required is used. Since the insertion depth of the anchor 10 is different accordingly, it is more preferable to select the latter method in view of the compatible use of the anchor 10 as much as possible.

In addition, the spreading operation of the fixing blade 12 by the spreader 17 is not limited to the mechanism shown in FIGS. 1 and 2, and the spreader 17 is fixed to both sides according to the sliding movement of the anchor rod 16. If the wing 12 can be pushed out simultaneously in its unfolding direction, the shape of the spreader 17 and the fixing wing 12 in contact with it may be formed in a variety of other shapes, if necessary, the spreader 17 And the spring 19 may be elastically interposed between the rear side of the anchor body 11.

As described above, when the spring 19 is elastically interposed between the spreader 17 and the rear side of the anchor main body 11, the insertion of the anchor 10 by various striking equipment or vibration consolidation equipment is shown in FIG. As can be seen, the spring 19 is compressed between the spreader 17 and the anchor main body 11, and both fixing blades 12 are kept folded. Without causing, it serves to absorb the shock or vibration transmitted to the anchor body 11 via the anchor rod 16 from the hitting device or vibration consolidation equipment.

In addition, when the anchor rod 16 is pulled to the rear side together with the anchor body 11 after insertion of the anchor 10, as shown in FIG. 2, the spring is applied to the pull force acting on the anchor rod 16. The restoring force of (19) is added, so that the spreading operation of the fixing blades 12 by the spreader 17 moving to the rear side with the anchor rod 16 in accordance with the sliding operation of the anchor rod 16 is more It is to be made quickly and easily.

Finally, the slope reinforcing anchor 10 according to the present invention, like the previously applied slope reinforcing anchor, the anchor is exposed to the outside of the inclined surface after the insertion of the anchor 10 by the anchor rod 16 and its fixing is completed It is used together with parts such as anchor fixing plate which is fixed on the inclined surface as washer and nut at the rear end of the rod 16 (or steel bar or iron bar), and in case of anchor 10, mild steel product with corrosion-resistant hot zinc plating In the case of the anchor rod 16, it is preferable to use a soft iron product subjected to corrosion resistant hot zinc plating, but if the mechanical strength is excellent, reinforced plastic such as fiber reinforced plastic (FRP) or other Metal materials may be used.

Hereinafter, the working relationship of the present invention having the above configuration will be described in detail with reference to the accompanying drawings.

First, the pre-investigation of the ground of the inclined surface to which the slope reinforcing anchor 10 according to the present invention is to be applied, determines the insertion position, the insertion angle and the depth of the anchor 10 according to the present invention, and then the anchor rod 16 ) By itself (when the length of the anchor rod 16 corresponds to the insertion depth of the anchor 10) or in the state in which a steel bar or an iron rod is connected to the rear end of the anchor rod 16, or the like. The anchor 10 is inserted into the inclined surface using the equipment or the vibration consolidation equipment.

When the anchor 10 is inserted into the interior of the inclined surface by using a variety of hitting equipment or vibration consolidation apparatus as described above, as shown in FIG. Each anchoring blade 12 is pressed in by the spreader 17 fixed to the anchor rod 16 in a fully folded state, so that the anchor 10 may be applied to various grounds such as a gravel layer or a wind rock layer as well as soil foundations. It can be inserted quickly and easily.

When the anchor 10 is inserted into the inside of the inclined surface in a manner as described above, and then the anchor rod 16 or steel rod or iron rod, which is extended and exposed to the outside of the inclined surface, is drawn with a constant load, the anchor body The anchor rod 16 slidably inserted into the 11 slides backward along the anchor body 11 by a predetermined width, and the spreader 17 fixed to the anchor rod 16 is fixed to the fixing blade 12. Will be pushed out in both directions.

As described above, when the spreader 17 fixed to the anchor rod 16 pushes the fixing blades 12 primarily in both directions, the anchor body 11 stops according to the pulling force acting on the anchor rod 16. 18, not only the anchoring blade 12 is unfolded at an angle in advance, but also at the time of substantial drawing of the anchor body 11 by the anchor rod 16. Since 17) assists the unfolding operation of the fixing wing 12, each fixing wing 12 can be unfolded more quickly and accurately as shown in FIG.

As the anchor rod 16 draws the anchor main body 11 by the anchor rod 16 as described above, the anchoring blades 12 are unfolded on both sides of the anchor 10 in the blow or vibration consolidation type insertion process of the anchor 10. Since the ground corresponding to the insertion portion of the c) is disturbed, the tip penetrating blade 12a of the anchoring blade 12 is caught by the disturbed ground speed as the anchor body 11 is pulled out by the anchor rod 16. This is because the fixing blades 12 can rotate while easily penetrating into the disturbed ground by the pulling force acting on the anchor rod 16.

Insert the anchor 10 to the inside of the inclined surface by a predetermined depth as described above, and then applying the pull force to the anchor rod 16 to expand both fixing blades 12, if necessary, the insertion portion of the anchor 10 After the compaction construction for the anchor rod 16 exposed to the outside of the inclined surface or fixed to an anchor fixing plate not shown by the washer and nut at the tip of the steel bar or iron bar to be in close contact with the surface of the inclined surface, in the present invention Construction of the slope reinforcing anchor 10 by is completed.

As described above, the slope reinforcing anchor 10 according to the present invention directly inserts the anchor 10 on an inclined surface without performing a separate drilling operation, and simultaneously anchors the anchor 10 by unfolding the fixing wing 12. Tensile force to the end can be expressed through the anchor rod 16, thereby enabling a quick and easy installation of the anchor 10 it is possible to reduce the time and cost due to the reinforcement construction of the slope.

In addition, the grouting work for consolidating the concrete or mortar through the drilled hole is not necessary, thereby reducing the working conditions and environmental pollution due to the cement component leaking through the inclined surface, as well as reinforcing the inclined surface. It can contribute more significantly to the reduction of time and cost, and even between the anchor rod 16 and the anchor fixing plate installed on the surface of the inclined surface even if the external wall is not finished by the shotcrete after the anchoring operation. Since strong tensile force is expressed, it is possible to provide an environmentally friendly reinforcing structure that is visually beautiful and enables the growth of grass and tree plants.

In addition, the slope reinforcing anchor 10 according to the present invention has a structure in which the fixing wing 12 is extended to both sides of the anchor body 11 to perform a very excellent function as a fixing end, thereby anchoring ( 10) At the same time, the anchor rod 16 or the steel bar or the iron bar can support a very strong tensile force, not only can effectively achieve the reinforcement function of the inclined surface, but also various reinforcement structures additionally constructed along the inclined surface. It is safer and more firmly supported so that the collapse of the slope can be prevented in advance.

In particular, the slope reinforcing anchor 10 according to the present invention, unlike the pre- filed anchor, each anchoring wing 12 by the spreader 17 before the actual drawing time of the anchor body 11 by the anchor rod 16 ) Is not only unfolded at a certain angle in advance, but also because the spreader 17 assists the unfolding of the fixing blade 12 even when the anchor body 11 is actually pulled out by the anchor rod 16. In addition, it is possible to unfold each anchor wing 12 more easily and accurately even with less pulling force than the pre- filed anchorage, which enables not only the anchoring of the more robust anchor 10, but also the time and time required for reinforcing construction of the inclined surface. This can contribute even more to cost reduction.

Finally, when the spring 19 is elastically interposed between the spreader 17 and the rear side of the anchor body 11, the striking equipment or the like does not interfere with the insertion of the anchor 10 at all. The spring 19 absorbs the shock or vibration transmitted from the vibration compaction apparatus to the anchor body 11 via the anchor rod 16, thereby preventing cracking or damage of the anchor 10 in advance. Even when the anchor rod 16 is pulled to the rear side together with the anchor body 11 after the insertion of the rod 10, the restoring force of the spring 19 is added to the spreading force applied to the anchor rod 16 to the spreader 17. By the expansion operation of the fixing wing 12 will be able to achieve more quickly and easily.

Slope reinforcement anchor according to the present invention as described above, by inserting the anchor directly on the inclined surface without performing a separate punching work, the tensioning force to anchor the anchoring end at the same time as the anchoring blades unfolded and expressed through the anchor rod In addition, it is possible to maximize the tensile force expressed from the anchor rod, thereby enabling the quick and easy installation of the anchor, thereby reducing the time and cost of reinforcing construction of the slope.

In addition, the grouting work of consolidating concrete or mortar through the perforated hole is not necessary, thereby reducing the working conditions and environmental pollution due to cement components leaking through the inclined surface. There is an effect that it can contribute more greatly to the time and cost reduction by reinforcement construction, and even though the external wall is not finished by the shotcrete after fixing the anchor, strong tensile force is generated by the anchor rod and anchor fixing plate visually. It is effective to provide an eco-friendly reinforcing structure that is beautiful and enables the growth of grass and tree plants.

In addition, the slope reinforcing anchor according to the present invention performs a very excellent function as a fixing end because the anchoring wings are expanded to both sides of the anchor body, and thus the anchor rod is very strong at the same time as the anchor installation It is possible not only to achieve the reinforcement function of the inclined surface more effectively by being able to support it, but also very excellent to prevent the collapse of the inclined surface in advance by supporting various reinforcement structures additionally constructed along the inclined surface more safely and securely. It works.

In particular, not only the anchoring blade is unfolded at an angle in advance by the spreader before the anchor body is pulled out by the anchor rod, but the spreader is fixed even when the anchor body is actually drawn by the anchor rod. Since it assists the spreading operation of the wing, it has the effect of unfolding each fixing wing more easily and accurately even with a small pulling force, which makes it possible not only to fix the anchor more firmly, but also to reinforce the construction of the slope This can contribute to greater savings.

In addition, when the spring is elastically interposed between the spreader and the rear side of the anchor body, the impact transmitted to the anchor body through the anchor rod from the striking device or the vibration consolidation device without causing any trouble to the anchoring operation. The spring absorbs the vibration and prevents the crack or damage of the anchor in advance. Even when the anchor rod is pulled to the rear side together with the anchor body after the anchor is inserted, the spring is applied to the pull force acting on the anchor rod. Restorative force is added to effect the spreading of the fixing blades by the spreader more quickly and easily.

Claims (2)

Along with the anchor rod 16, a conical or pyramidal anchor body 11 is formed to be inserted into the inclined surface, and a pair of fixing blades 12 are formed on both sides of the rear of the anchor body 11 with the rotating shaft 14. The hinged angular movement is installed so as to be connected to the center, and the free end of the fixing blade 12 is formed of a sharp acute penetration penetrating blade 12a, the anchor body 11 inserted into the interior of the inclined surface. In the drawing by the anchor rod 16, the pair of fixing blades 12 is fixed to spread in both directions, Both rear sides of the anchor main body 11, which is the connection portion of the fixing wing 12, are formed from the anchor main body 11 so as to form the supporting jaw 15 of the fixing wing 12 during the unfolding operation of the fixing wing 12. Made of a connecting bracket (13), The anchor rod 16 is inserted through the central portion of the anchor body 11 so as to be slidable forward and backward by a predetermined width along the anchor body 11, A stopper 18 is fixedly installed at the front end of the anchor rod 16 to prevent the anchor rod 16 from being separated when the anchor body 11 is drawn out. Between the pair of fixing blades 12, a spreader 17 for pushing the fixing blades 12 in both directions when the anchor body 11 is drawn out is fixedly installed on the anchor rod 16. Slope reinforcement anchors. 4. The slope reinforcing anchor according to claim 1, wherein a spring (19) is interposed between the spreader (17) and the rear side of the anchor body (11).

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