KR101083836B1 - Removable earth anchor - Google Patents

Abstract

PURPOSE: A removal type earth anchor is provided to easily remove the earth anchor by connecting a tension member and a supply pipe to a connection pipe through a fixture. CONSTITUTION: A removal type earth anchor comprises an inner body(110), a fixture(150), a connection pipe(130), a supply pipe(190), and a tension member(170). Screw threads(116) are formed on the inner surface of the inner body, and discharge holes are formed on the outer surface. The screw threads of the inner body correspond to the screw threads(136) of the connection pipe. The fixture has a through hole(152). The connection pipe is connected to the front end of the fixture. The supply pipe is inserted into the through hole of the fixture and is extended to the inner body. The tension member is inserted into the through hole of the fixture and is extended to the connection pipe.

Description

Removable Earth Anchor {REMOVABLE EARTH ANCHOR}

The present invention relates to a removable earth anchor, and more particularly, to a removable earth anchor having a simpler structure and having a higher tensile force, as well as easier and more reliable removal.

Digging up the soil will cause the soil to collapse and lead to a state in which the excavation can no longer be carried out. In order to prevent this, that is, construction that proceeds to prevent the soil from falling down is commonly referred to as an earthquake construction, and such an earthquake construction is typically a soil nailing method and an earth anchor method. have. These methods can be properly selected and implemented according to the characteristics of the construction site. For reference, these methods can be carried out for various purposes such as reinforcement of various structures, prevention and stabilization of slopes, prevention of floating underground structures under pressure, and prevention of transmission towers.

Soil nailing method is one of the ground reinforcement methods to stabilize by inserting reinforcement into the soil.Increase the overall shear strength of the ground itself by inserting reinforcement into the base at close intervals without prestressing. Top-down cut surface reinforcement method to suppress possible ground displacement. This method is widely used in Europe and the United States as a flexible ground reinforcement method for slope reinforcement and excavation surface.

Earth-Anching method is a method that drills a hole in the retaining wall, inserts reinforcing steel or PC steel wire, grouts the mortar, fills it, and makes an anchor on the back to tie the retaining wall to the tie-back anchor method. Also called. In other words, instead of the brace, this method drills a hole in the earth wall with an earth drill, puts a reinforcing material such as reinforcing bars or PC steel wire in it, grits it around with a mortar, and hardens it. Refers to the earth blocking method to apply tensile force.

In the case of the earth anchoring method, since a tension member such as reinforcing bars or PC steel wire is installed along the hole of the retaining wall, there is a problem that the tension member is installed on the adjacent land of the land currently under construction. In order to solve this problem, various methods for removing the earth anchor have been proposed, but problems such as a complicated structure, a difficult removal, or an incomplete removal are still raised.

Accordingly, the present invention has been made to solve the above problems, the object of the present invention is to provide a removable earth anchor not only having a simpler structure but also having a greater tensile force, easier to remove and reliable.

According to a preferred embodiment of the present invention for achieving the above object of the present invention, the removable earth anchor is fixed to one or more through-holes formed therein along the longitudinal direction, is connected to the tip of the stator to the outside from the tip of the stator In the direction extending and being threaded along the outer surface, a thread is formed on the inner surface so as to correspond to the thread of the connecting tube, and is coupled with the connecting tube through the thread, and discharge holes in which grout is discharged from the inside to the outside are everywhere. It includes a formed load body, a tension member extending through the through hole of the fixing member to the connection pipe, and a supply pipe extending through the through hole of the fixing member to the lower body and supplying the grout to the lower body.

Here, the connecting pipe is detachable from the inner body with the fixing rod by rotation. The discharge hole may be formed on a protrusion projecting outward from the inner body by the discharge pressure of the grout. In this case, the protrusion may be formed of a plurality of stages which gradually decrease in area in the outward direction of the lower body, and the discharge hole may be formed on the outer surface of each end of the protrusion. In addition, a plurality of protrusions may be provided, some of the protrusions may protrude in a direction perpendicular to the outer surface of the inner body, and the rest of the protrusions may protrude obliquely from the outer surface of the inner body.

In the removable earth anchor according to the present invention, the connecting pipe can be easily separated from the load body by rotation, and the tension member and the supply pipe are connected to the connecting pipe through the fixing rod so that the connecting pipe can be separated from the load body together with the connecting pipe. With the effect that the earth anchor can be removed more easily and more reliably, the grout is discharged farther from the outer surface of the inner body so that the grout is formed on the protrusion of the inner body, so that the tensile force is reduced. There is an effect that can be improved.

1 is a perspective view showing a removable earth anchor according to Embodiment 1 of the present invention;
FIG. 2 is a perspective view illustrating a state in which protrusions protrude from the removable earth anchor of FIG. 1. FIG.
3 is a perspective view partially showing the interior of the removable earth anchor of FIG.
4 is an exploded perspective view of the removable earth anchor of FIG.
5 is a cross-sectional view illustrating a state in which the removable earth anchor of FIG. 2 is actually installed.
6 is a side view showing a removable earth anchor according to Embodiment 2 of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, but the present invention is not limited or limited by the embodiments. For reference, in the present description, the same numbers refer to substantially the same elements, and may be described by quoting contents described in other drawings under these rules. And it can be omitted that it is determined or repeated to those skilled in the art to which the present invention pertains.

Example 1

1 is a perspective view showing a removable earth anchor according to the first embodiment of the present invention, Figure 2 is a perspective view showing a protruding state from the removable earth anchor of Figure 1, Figure 3 is a Figure 2 4 is a perspective view partially showing the inside of the removable earth anchor of FIG. 4 is an exploded perspective view of the removable earth anchor of FIG. 2, and FIG. 5 is a sectional view showing a state in which the removable earth anchor of FIG. 2 is actually installed. to be. As shown in FIGS. 1 to 4, the removable earth anchor according to the present embodiment basically includes a load bearing body 110, a connecting pipe 130, and a fixing stand 150. And the removable earth anchor according to the invention is installed in the form that is inserted into the hole (H) drilled in the retaining wall (W) as shown in FIG.

As shown in FIG. 1 and the like, the load bearing body 110 is provided at the front of the removable earth anchor according to the present embodiment. The discharge hole 112 penetrating from the inside of the lower body 110 to the outside is formed on the outer surface of the lower body 110. As described below, the grout supplied therein may be discharged to the outside through the discharge hole 112. In order to allow the discharge of the grout to be made in a wider range, the discharge hole 112 according to the present embodiment is formed on the protrusion 114 protruding outward from the lower body 110 by the discharge pressure of the grout. Can be.

In detail, the discharge hole according to the present exemplary embodiment may be simply formed in the form of a hole formed in the outer surface of the lower body 110. However, if the discharge hole is formed in this way, the grout cannot be discharged far from the outer surface of the lower body 110. The fixing field formed on the outer surface of the lower body 110 while the grout is hardened may provide a greater tensile force when the thickness thereof is thicker (that is, the larger the cross-section thereof). Accordingly, when the grout is discharged away from the outer surface of the lower body 110 and the thickness of the fixing cabinet becomes thicker, the tensile force is further improved (the lower body can be shortened accordingly). For this effect, the discharge hole 112 according to the present embodiment may be formed on the protrusion 114 protruding outward from the lower body 110.

In order to further improve this effect and to facilitate the discharge of the grout, the above-described protrusion 114 may be formed in multiple stages, and the above-described discharge hole 112 may be formed at each end of the protrusion 114. Can be. That is, as illustrated in FIG. 2, the above-described protrusion 114 may be formed of a plurality of stages which gradually decrease in area in the outward direction of the lower body 110 (in FIG. 2, the protrusion formed in three stages). For example). In addition, the above-described discharge hole 112 may be formed on the outer surface of each end of the protruding portion 114 (However, the discharge hole 112 may not be formed at every end, but may be formed only at some end in consideration of the degree of discharge of the grout). ).

As such, when the protrusion 114 and the discharge hole 112 are formed, discharge of the grout may be performed in a wider range. In addition, if each end of the protrusion 114 is formed in a cylindrical shape, and the discharge hole 112 is formed on the outer surface of each end of the protrusion 114 at equal intervals, the effect that the grout discharge is more smoothly obtained can also be obtained. . For reference, even if formed on the outer surface of the protrusion 114 of the plurality of stages of the plurality of discharge holes 112, each of the discharge holes are in communication with each other from the inner surface of the lower body body 110.

However, when the protrusion 114 protrudes from the beginning to the outer surface of the lower body 110, the process of inserting the earth anchor according to the present embodiment into the hole H may not be easy. That is, the earth anchor may not be inserted into the hole H smoothly due to the contact between the protrusion 114 and the inner surface of the hole H. In order to solve this disadvantage, the protrusion 114 according to the present embodiment is located inside the lower body as shown in FIG. 1, and the grout is transferred to the lower body 110 through the supply pipe 190 to be described later. When the grout is supplied and discharged to the outside through the discharge hole 112, the grout may protrude outward from the lower body 110 as illustrated in FIG. 2 by the discharge pressure at this time.

In order to implement such a configuration, each end of the protrusion 114 may have a flange (not shown) extending outward at a lower portion thereof, and a locking jaw (not shown) extending inwardly may be formed at an upper portion thereof. . That is, the upper end of the smaller area may be inserted into the lower end, and the protrusion 114 may be formed in such a manner that the upper end of the flange is caught by the lower end of the lower end while the upper end protrudes from the lower end by the discharge pressure of the grout. . This configuration can be equally applied even if the protrusion 114 is formed in one end. However, the locking step at this time will be formed in the lower body 110.

On the other hand, the rear end of the lower body 110, as shown in Figure 1 or the like is provided with a fixing table 150 via a connecting pipe 130 to be described later. As shown in FIG. 3, the fixing member 150 may have a through hole 152 provided with a tension member 170 and a supply pipe 190 to be described later along a length direction thereof. One or more through holes 152 may be formed. That is, the tension member 170 and the supply pipe 190 may be installed together in one through hole 152, and the tension member 170 may be provided in each through hole 152 in correspondence with each tension member 170. It may also be installed (see FIG. 3). However, in order to more securely fix the tension member 170 or the like to the earth anchor through the fixing table 150, it is preferable to form the through holes 152 by the number of the tension members 170 and the like.

The aforementioned load chamber 110 and the fixing stand 150 are connected to each other through a connecting pipe 130. Connector tube 130 is connected to the front end of the holder 150 as shown in Figure 3 and the like and refers to the outer direction (ie, longitudinally outward from the end of the holder 150) from the tip of the holder 150, 3, the left direction). And the outer surface of the connecting tube 130 is formed with a thread 136 for coupling with the lower body 110. Correspondingly, the thread 116 is also formed on the inner surface of the lower body 110. That is, the connector 130 has a form similar to the male screw, and the lower body 110 has a form similar to the female screw, the screw coupling is made between the connecting tube 130 and the lower body 110. By such a configuration, the earth anchor according to the present embodiment can remove the connecting pipe 130 from the inner body 110 by rotation.

And since the connecting pipe 130 is connected to the fixing rod 150, as a result, the fixing stand 150 can also be easily separated from the lower body 110 together with the connecting tube 130 by rotation. As a result, when the earth anchor needs to be removed, the inner body 110 and other components (ie, a connecting pipe, a fixing rod, a tension member, etc.) are rotated (for example, the tension member is rotated outside of the retaining wall). Separation by rotating the connecting tube connected to the stator by means of which is then removed, and then the other components described above are rotated again (but in some cases by pulling the tension member etc. out of the hole without rotation). It may be made from the hole H of the retaining wall (W). Accordingly, since the earth anchor according to the present embodiment can be removed more reliably, there is an effect of improving the removal rate.

On the other hand, the through hole 152 of the fixing table 150, as shown in Figure 3 is provided with a tension member 170 and the supply pipe 190, respectively. The supply pipe 190 extends through the through hole 152 of the fixing stand 150 to the lower body 110, and supplies grout from the outside to the lower body 110. The grout supplied to the lower body 110 from the outside through the supply pipe 190 is discharged to the outside of the lower body 110 through the above-described discharge hole 112 to form a fixing field. The tension member 170 also passes through the through hole 152 of the fixing table 150 similarly to the supply pipe 190. The tension member 170 may be steel or PC steel wire. In addition, the tension member 170 may extend to the aforementioned connection tube 130 and be coupled to the connection tube 130. As such, when the tension member 170 extends to the connector tube 130 and is coupled to each other, the rotation of the tension member 170 may be better transmitted to the connector tube 130, so that the connector tube from the lower body 110 ( 130) can be more easily performed.

Example 2

6 is a side view illustrating a removable earth anchor according to Embodiment 2 of the present invention. As illustrated in FIG. 6, the removable earth anchor according to the present embodiment has the same configuration as the removable earth anchor according to the first embodiment. However, the removable earth anchor according to the present embodiment is different from the removable earth anchor according to the first embodiment in the protruding angle of the protrusion. For reference, the same (or equivalent) reference numerals are given to the same (or equivalent) parts as the above-described configuration, and detailed description thereof will be omitted.

Referring to the removable earth anchor according to the present embodiment centering on such a difference, in the removable earth anchor according to the first embodiment, each protrusion 114 protrudes only in a direction perpendicular to the outer surface of the lower body 110. In the removable earth anchor according to the present embodiment, some of the protrusions 214a protrude in a direction perpendicular to the outer surface of the lower body, and the rest 214b and 214c protrude obliquely from the outer surface of the lower body. As such, when the protrusion 214 is formed, the grout may be more widely discharged from the lower body 210. In order to further highlight this advantage, as shown in FIG. 6, the protrusion 214a positioned at the center of the lower body 210 protrudes in a direction perpendicular to the outer surface of the lower body 210, and the protrusion located at the front part. 214b may be formed to protrude obliquely toward the front of the lower body 210, and the protrusion 214c positioned at the rear part may be formed to obliquely protrude toward the rear of the lower body 210.

As described above, the present invention has been described with reference to preferred embodiments of the present invention, but a person of ordinary skill in the art does not depart from the spirit and scope of the present invention as set forth in the claims below. It will be understood that various modifications and variations can be made in the present invention. Therefore, the spirit of the present invention should be understood by the claims described below, and all equivalent or equivalent modifications thereof will belong to the scope of the present invention.

110: inner body 112: discharge hole
114: protrusion 116: thread
130: connector 136: thread
150: holder 170: tension member
190: supply pipe

Claims (5)

Fixing stand which is formed with one or more through-holes along the longitudinal direction;
A connection pipe connected to the tip of the stator to extend outward from the tip of the stator and having a thread along an outer surface thereof;
A threaded body formed on an inner surface so as to correspond to a thread of the connecting pipe, the lower body having a discharge hole coupled to the connecting pipe through the thread and having a grout discharged from the inside to the outside;
A tension member extending through the fixing hole and extending to the connection pipe; And
A supply pipe penetrating the through hole of the stator to the inner body and supplying the grout to the inner body;
The discharge hole is formed on a protrusion that protrudes outward from the lower body by the discharge pressure of the grout, the protrusion is formed of a plurality of stages that gradually decrease in area in the outward direction of the lower body, and the discharge hole Removable earth anchor, characterized in that formed on the outer surface of each end of the protrusion. The method according to claim 1,
The connecting pipe is removable earth anchor, characterized in that detachable with the fixing rod from the inner body by rotation. The method according to claim 1,
A plurality of protrusions are provided, some of the protrusions protrude in a direction perpendicular to the outer surface of the lower body, the remaining portion of the removable earth anchor, characterized in that protruding obliquely from the outer surface of the lower body. delete delete

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