KR200374088Y1 - Multi-Protector System - Google Patents

Abstract

The present invention relates to a protector for use in the soil nailing, rock bolt, and anchor method, which is a reinforcement for stabilizing various excavation works and civil engineering slopes, and more specifically, various excavation works and excavation slopes for civil engineering and construction In the protector manufactured to the required length for use in constructing reinforcing holes by the nail nail, rock bolt, anchor method, which is a reinforcement for stabilization, one side is fixed to the fixing part of the front wall and the other inside The hollow head cap 11 into which the polyester slide tube 12 is inserted and mounted, and the polyester inserted into the polyester wave tube 13 whose one side is inserted into the head cap 11 and the other side is a heterogeneous pipe joint. The slide tube 12 and the inside of the structure in which the polyester slide tube 12 is inserted into the inside of one side and the end cap 14 is mounted on the other side of the slide tube 12 is inserted into the slide tube 12. And it characterized in that, after the installation is easy and the construction until the construction is a very useful effect in the field is easy to dismantle.

Description

Multi-Protector System

The present invention relates to the protector device used in the soil nailing, rock bolt, and anchor method, which is a reinforcement method for stabilizing various excavation works and construction of civil engineering and construction, in particular, polyester slide tube, head cap, polyester wave tube and It is composed of the end cap (End-Cap), etc., easy to be mounted on the nail, lock bolt, anchor, and also easy to dismantle step by step when dismantling.

In general, when the slopes of a mountain slope or hill are severely damaged by natural disasters such as heavy rain, flood, or earthquake, the damaged slopes or hills are cut down by a certain amount, and the soil is filled up to form new slopes. In the case of new land or new roads and railroads, the slopes of the hills or hills are scraped to flatten the surface and form the remaining slopes as new slopes.

As described above, when the cut surface of the cut area created by cutting or filling up the soil as a new terrain is left as bare land, soils on the slope of the bare land are easily lost due to various natural causes such as heavy rains and floods. In addition, in severe cases, the slope of the bare land itself may collapse, which may cause enormous property and casualty damage. Therefore, the slope of the slope in the cut area should be reinforced to stabilize the slope, thereby preventing the collapse of the slope in advance. Reinforcement is installed to protect and maintain the excavation surface and the cut surface which are expected to collapse due to the earth pressure in various excavation work and the cut slope.

As a method for preventing deformation of the excavation surface and cut slope and stabilizing the back ground, there is a soil nailing, a rock bolt, an anchor method, and the like.

Soil nailing, rock bolt, anchor method drills inclined downward in the back ground, inserts reinforcing reinforcing bars and strands in the boring, and injects and hardens grout materials such as mortar to form grout solids. The end of the rebar exposed to the ground is fixed to the front wall with a pressure plate and a fixing nut to form an anchor body (fixed body) in the form of an inclined pile.

The anchor body (fixed body) installed in this way is formed as 3-20m in the ground according to the soil and rock quality of the site. do.

As shown in FIG. 1, the conventional cut area slope reinforcement structure as shown in FIG. 1 scrapes a portion of the bare land inclined surface 1, backfills the rubble layer 3 in the portion thereof, and then By installing a large concrete retaining wall in which a drainage hole is formed in the front, the earth pressure of the back is supported by the concrete retaining wall, and using a rock drill or boring machine, a plurality of holes are drilled on the inclined surface 1 of the bare ground, and thus the perforated holes are While inserting the lock anchor or the soil nail (5) at the same time, the resin or mortar layer (5a) is formed by grouting on the outer side of the lock anchor or the soil nail (5) inserted through the hole, and then the rock anchor or the nail Shotcrete (4) is cast to a certain thickness on the inclined surface (1) on which the tip of (5) protrudes, so that some soils of the inclined surface (1) are formed as one reinforcing unit and the earth pressure of the back surface is formed. It is known to support.

However, the conventional concrete retaining wall is not only to install a relatively large concrete retaining wall along the bare land slope (1), but also to the surface loss, load or impact by rain until the concrete retaining wall is sufficiently hardened after the concrete is placed. In order to prevent the damage and damage of concrete caused by concrete, it must be very strictly protected and managed.In addition, after the construction is completed, the cracks of the concrete retaining wall must be checked from time to time and appropriate repair work must be performed accordingly. There was a problem that the management takes a very high cost, and because the height of the inclined surface (1) is limited to the height of the concrete retaining wall that can be constructed, there was a problem that it is very difficult to construct the concrete retaining wall (2).

In addition, the surface of the concrete retaining wall (2) and the shotcrete (4) itself is not natural friendly, because the grass and wood plants can not grow, there is a problem that acts as a factor that damages the overall view of nature in appearance, and shotcrete ( 4) Even if plants and plants are planted by applying a vegetation soil with a certain thickness, the root growth of plants and trees is limited by the shotcrete (4), so the plants cannot grow well and die easily. There was a problem.

And the anchor body (settling body) installed by the soil nailing, rock bolt, anchor method, etc. as described above to increase the rigidity of the base against the earth pressure acting through the frictional resistance of the main surface of the grout solidified body and the pull-out resistance of the anchor reinforcement, It is a construction method to be able to support independence, and has a good construction property as a universal construction method that is used most recently in order to stabilize the excavation wall.

However, the anchor body (settling body) by the soil nailing, rock bolt, anchor method, etc. is constructed when the reinforcing bars embedded in the ground sometimes invade adjacent land boundary lines, so that when the steel remains without being removed, There are problems such as disputes caused by civil complaints, delays in consultation, payment of land occupancy fees, and obstacles to underground troubled documents when constructing adjacent areas, as well as causing environmental pollution due to corrosion.

Therefore, it is preferable to remove the reinforcement embedded in the ground at the point when the meaning of the earth block is completed and backfills the periphery of the excavation wall. It is not so easy to draw and remove in narrow places.

Accordingly, the technical development of this part is actively underway. As a related art, a stator socket is coupled to the outer circumference of several (3-7) spiral connection reinforcing bars and the reinforcing bar is made of one synthetic tube. After inserting the inside of the sheath tube, and inserting it into the perforation of the ground, and by inserting a grout material such as mortar into the inner and outer sheath tube to form a grout solidified body screw removal method to form a nail nail anchor body have.

Soil nail anchor body by the screw removal method is to pull out the ground by rotating the reinforcing bar to remove at the end of the role of the earth barrier, the reinforcing bar is rotated along the thread of the stator socket in the sheath pipe surrounded by the grout By withdrawing, it becomes possible to collect | recover.

The above screw removal method of soil nailing has the advantage that the reinforcing bar can be recovered and the reinforcing bar and the stranded wire can be used again.

However, in order to remove and recover the reinforcing bars inserted into the ground, the reinforcing bars must be rotated with a great force until the final exit of the front wall, and the drawing work is very difficult, and the recovery time is delayed. .

In particular, since the structure of spiral reinforcing bars, stator sockets, and synthetic sheath pipes is a complex spiral device that must be specially manufactured, the material purchase cost is very expensive, and as a result, the construction cost is large, resulting in an uneconomic problem that is constrained in practical adoption. have.

In addition, there is a fear of gradual breakdown due to stress concentration in the stator socket portion, and a problem of inferior safety has been pointed out.

In addition, there is a problem that the sheath pipe and the stator socket remain in the ground after the removal of the reinforcing bar, and means for refilling the cavity created by the removal of the reinforcing bar are not taken, resulting in the weakening of the adjacent ground. Not only that, but also the problem of polluting the underground environment is not completely solved.

On the other hand, since the permanent anchor is very important to the corrosion protection of reinforcing bars, reinforcing bars are used with epoxy coating. Epoxy coated reinforcing bars used for soil nails, rock bolts and anchors are expensive products for custom production, and the epoxy coating may be peeled off. The anti-corrosion treatment methods are categorized into three types, namely 'simple corrosion prevention', 'semi-permanent' and 'double corrosion prevention'.

Accordingly, the present invention to solve the shortcomings of the soil nailing, rock bolt, anchor method, etc. for stabilizing the excavation wall surface of the excavation portion and to take advantage of the advantages, the purpose of the present invention is the first, the ground anchor body (fixed body) Reinforcement bars and strands used as reinforcing materials can be easily removed and recovered without residues at the end of the reinforcing role, and civil consultations are discussed smoothly during construction to prevent air delays caused by disputes. Second, to prevent civil complaints about the land use by others due to the residue of the earth after the end of the retaining wall, to avoid the burden of land use fees, and to eliminate the obstacles when constructing adjacent areas in the future due to the existence of reinforcing anchor bars. Fourth, to prevent environmental pollution caused by corrosion and residual residues of reinforcing steel and strands inserted and existing in the ground. Not only is the construction cost low, but it is possible to recycle the reinforcing anchor rods to be recovered, while providing a simple and quick construction, thereby improving the economics, and providing a dismantlement-type small nail device that is easy to recover. In addition, instead of the use of uneconomical epoxy coated reinforcing bars, polyester corrugated pipes, head caps, and end caps are used to prepare countermeasures against corrosion.

Another object of the present invention is to provide a means for restoring and stabilizing the stiffness of the perforated ground to its original state by refilling the voids generated by the removal of reinforcing steel bars, and so on. In order to prevent the weakening, it is to provide a disassembly-removable small nail device easy to recover.

The present invention for achieving the above object is produced in the required length for use in constructing reinforcement by the soil nailing, rock bolt, anchor method, etc. to stabilize the wall surface of the ground in various excavation work and cut slope of civil engineering In the protector, a hollow head cap, one side of which is fastened to the fixing part of the front wall and a polyester slide tube is inserted and mounted inside the other side, and a polyester wave tube of which one side is inserted into the head cap and the other side is a heterogeneous pipe joint. Polyester slide tube is inserted into and the polyester slide tube is inserted into the inside of one side and the other side is inserted into the inside of the structure in which the end cap is mounted so that the nail cap is attached to the milk grout at the bottom The hole for injection is formed, the end cap is open from only one side or both sides open Characterized in that the slow one, and provides the multiplexed-protector, characterized in that the settlement cone is further provided at the terminal of the end cap is the two sides opened.

1 is a view showing a structure in which a conventional nail nail is mounted.

Figure 2 is a construction state showing a structure equipped with a multi-modal soil nail of the present invention.

Figure 3 is a perspective view showing the structure of a multi-type Soil Nail of the present invention.

Figure 4 is a view showing a partial cross section of the head cap of the present invention.

5 is a view showing the structure of the fixing cone of the present invention.

Figure 6a is a view showing a structure in which the fixing cone is mounted on the end cap of the present invention.

Figure 6b is a view showing a structure in which one side is mounted as an end cap to the polyester wave tube in another embodiment of the present invention.

7 is an enlarged view of a structure in which one end is mounted as an end cap on the polyester wave tube of the present invention.

Figure 8 is a view showing the structure of the polyester waveform tube formed on the outer peripheral surface of the projection of the present invention.

Figure 9 is a side cross-sectional view showing the structure of the polyester slide tube of the present invention.

10 is a view showing a spacer mounted on the outer peripheral surface of the polyester slide tube of the present invention.

<Description of reference numerals for main parts of the drawings>

10: multi-type protector 11: head cap

12: slide tube 13: polyester wave tube

14: end cap 15: fixing cone

16: plate 17: spacer

5,20: Soil nail 100: slope

101: wrinkle portion 111: hole

112: grout injection portion 131: projection portion

Hereinafter, the configuration and one embodiment of the present invention will be described in detail with reference to the accompanying drawings.

First, look at the accompanying drawings as follows.

Figure 2 is a construction state showing a structure in which the multi-modal soil nail of the present invention is mounted, Figure 3 is a perspective view showing the structure of the multi-modality soil nail of the present invention, Figure 4 is a partial cross section of the head cap of the present invention 5 is a view showing the structure of the fixing cone of the present invention, Figure 6a is a view showing a structure in which the fixing cone is mounted on the end cap of the present invention, Figure 6b is another of the present invention As an example, a view showing a structure in which an end cap is sealed at one side of a polyester wave tube is shown, and FIG. 7 is an enlarged view of a structure in which one end is sealed at a polyester wave tube of the present invention. Is a view showing the structure of the polyester waveform tube formed on the outer peripheral surface of the projection of the present invention, Figure 9 is a side cross-sectional view showing the structure of the polyester slide tube of the present invention, Figure 10 is a view of the polyester slide tube of the present invention Mounted on the outer circumference It shows phaser.

As shown in the attached drawings 2 and 3, the configuration of the present invention is used to construct earth anchors by the soil nailing method or rock bolt method to stabilize the walls of the ground in various excavation works and slopes of civil engineering and construction In the soil nail manufactured to the required length in order to, the hollow head cap 11 and the one side is fastened to the fixing portion of the front wall and the polyester slide tube 12 is inserted and mounted inside the other side, one side is the head The polyester slide tube 12 is inserted into the cap 11 and the polyester wave tube 13 is inserted into the polyester wave tube 13, the other end of the heterogeneous pipe joint, and the polyester slide tube 12 is inserted into the inside of one side and the other side is It is a multi-type protector, characterized in that the soil nail 20 is inserted into the interior of the structure in which the end-cap 14 is mounted.

In addition, the head cap 11 has a structure in which a hole 111 for injecting milk grout is formed at a lower end thereof.

And the figure showing the structure in which the fixing cone is mounted on the end cap of the present invention of Figure 6a, and the structure of the end cap is mounted on one side of the polyester wave pipe in another embodiment of the present invention of Figure 6b As can be seen, the end cap 14 is to be characterized in that any one of only one side is open as shown in Figure 6a or in another embodiment, both sides as shown in Figure 6b.

In addition, the end of the end cap 14, both sides open as shown in Figure 6a is characterized in that the fixing cone 15 is further provided.

On the other hand, look at the order of grouting using the multi-type protector of the present invention as follows.

First, grout is injected through the grout injection part 112 of the head cap 11.

Then, grouting filling is performed through the slide tube 12 and the polyester wave tube 13 into the outer hole diameter outside the main body of the end cap 14 and the multi-type protector 10.

In other words, grouting filling is filled together inside and outside the body of the multi-way protector 10.

And while the present invention has been shown and described with respect to certain preferred embodiments, it can be variously modified and changed without departing from the spirit or the scope of the present invention provided by the claims below Those skilled in the art can easily know that.

Effects of the present invention according to the configuration as described above are as follows.

In addition, the design of the polyester corrugated pipe is an important feature, and it is possible to prevent corrosion by using an inexpensive polyester corrugated pipe instead of an uneconomical epoxy coated rebar in grouting methods such as removable and permanent soil nails and anchors. As a result, construction economics are very effective.

And it is easy to remove and recover the reinforcing iron bar, and it provides a cheap and simple earthen construction method.

On the other hand, there is no burden of land use fees and disputes due to the disposal of waste materials after the earthquake, and fundamentally eliminates obstacles in the future construction due to the existence of waste materials in adjacent perforated (insert reinforcing bars) ground, and corrosion of waste materials. In addition, it provides an environmentally friendly earthquake construction method that can prevent the ground displacement caused by the voids in the ground.

As described above, the present invention ensures stable construction performance from civil consultations on land use by others, eliminates obstacles caused by the presence of inserted reinforcing bars, and has no effect on ground reinforcement in earthquake construction. It is economical and environmentally beneficial without any post ground displacement, and it is also a very useful technology to ensure the affairs reduction, air shortening, and construction safety by securing and reinforcing workability.

Claims (4)

In the protector which is manufactured to the required length for use in constructing reinforcement by soil nailing, rock bolt, anchor method, etc. to stabilize the ground on various excavation works of civil engineering and construction, and cut surface, one side is front wall The hollow head cap 11 is fastened to the fixing portion of the inside and the polyester slide tube 12 is inserted into the inside of the other side, and one side is inserted into the inside of the head cap 11, the other end is a polyester joint Polyester slide tube 12 is inserted into the corrugated pipe 13, and the polyester slide tube 12 is inserted into the interior of one side and the reinforcing reinforcement in the structure of the other end cap 14 is mounted ( 20) The multi-type protector, characterized in that the insertion. The multi-type protector according to claim 1, wherein the head cap (11) is provided with a hole (111) for injecting milk grout at a lower end thereof. The method of claim 1, wherein the end cap (14) is a multi-type protector, characterized in that any one of only one side open or both sides open. 4. The multi-type protector according to claim 3, wherein fixing cones (15) are further provided at ends of the end caps (14) which are open at both sides.