KR200344971Y1 - Apparatus for removing wire of earth anchor - Google Patents

Abstract

The present invention relates to a steel wire removal device of the earth anchor, the present invention comprises a plurality of tension members (10) embedded in the temporary ground; A welding member 20 having a pair of tension members 10 adjacent to each other of the tension members 10 so as to be provided at the embedded end of each tension member 10 so as not to be in contact with each other;

The welding member 20 has a double tube shape consisting of a conductive inner tube 21 and an outer tube 22, and the inner tube 21 and the outer tube 22 are integrally maintained at a predetermined interval by a plurality of welding rods 23. The tension member 10 penetrating the center of each welding member 20 is formed so that the case 12 is removed so that the steel wire 11 comes into contact with the inner tube 21 of each welding member 20. In addition, the outer surface 22 of the welding member 20 provided in the tension member 10 adjacent to the outer peripheral surface of the steel wire 11 exposed to the other part of the tension member 10 to remove the case 12 is This makes it possible to remove the steel wire 11 almost completely by easy electrical operation and tensioning using tensioner, and greatly reduces the time and labor cost required for the steel wire removal work. Provide working process It will be good.

Description

Earth anchor removal device {Apparatus for removing wire of earth anchor}

The present invention relates to a steel wire removal device of the earth anchor, and more specifically to the thermal end deformation of the buried end of the tension member by electrical welding, using a tensioner to be easier and more convenient and faster to reduce the required cost and labor costs It is related with the steel wire removal apparatus of the earth anchor.

In general, a structure that is installed to prevent movement or distortion of a building or tower during construction such as groundwater leachate, slope, or earthquake generating site is called permanent ground anchor, and underground fixed structure that is removed after construction is called temporary ground anchor.

While building underground structures of high-rise buildings, subways, and large structures, H-beams are fixed vertically around the ground, and earth walls or exponential walls are formed by using large trees.

In this case, the earth pressure around the plate installed in the transverse direction is subjected to several hundred tons of pressure as it enters the basement, and eventually causes a large accident in which the earth wall can not bear any more pressure and collapses.

In order to prevent the collapse of the earth wall, a complex structure of forced supporters, which connect both sides of the earth walls vertically and horizontally, is installed in the underground space excavated using a large H beam. However, these steel supports are the obstacles to the smooth construction of construction equipment due to the structure of the forced beams installed in the grid, and despite their usefulness such as deterioration of work efficiency, extension of construction period, increase of construction cost, and huge waste of steel, etc. I have a lot of problems.

Another construction method, the underground continuous wall construction method, has the disadvantage that the surface of the wall is irregular and needs to be polished. In this case, it is also a pollution factor such as noise and dust. Therefore, the construction of the continuous wall by the anchor method is often adopted.

In other words, the anchor method is to prevent the ground from collapsing during the civil works, if the ground is weak during civil engineering and construction work, and drills grout holes in the ground where there is a risk of collapse, and inserts a plurality of tension members into the holes. Then, after the grout is injected into the grout hole and the injected grout is cured, a method of reinforcing the soft ground by tensioning the grout and the ground by engaging the anchor at the other end of the tension member and pulling the tension member to the tensioner.

At this time, the tension member is made to have a structure in which a plurality of steel wires are twisted in a twisted manner to cover the outside as a case.

Such anchors are disclosed in U.S. Patent No. 4,592,178 and U.S. Patent No. 4,832,535, but since the anchor tension material remains as it is, it becomes a serious problem that causes significant obstacles in the construction of the adjacent site after the completion of the construction.

Accordingly, the removable anchors provided in Japanese Patent Publications No. 3-77891 and No. 2-5206 have a removable core in the center of the excavation hole, and various types of tension member fastening structures are integrated around each other by spacers. If the core is removed after anchoring, the fastening structure between the spacer and the tension fastening structure is broken so that the tension member can be pulled out. There is a loss of function.

On the other hand, commonly used temporary ground anchor body is provided with a single steel wire (1a) twisting a plurality of steel wires (W) as shown in Figure 1, and wrapped the steel wire (1a) as a case of synthetic resin (1b) tension material (1), the grouting holes (2) formed of the ground using a perforator to insert a plurality of these tension members (1) and then filling the inside of the grouting holes (2) with grouting to cure and to the outside with a tensioner The steel wire 1a of the protruding tension member 1 is tensioned so that the ground is reinforced while the grouting together with the tension member 1 is firmly supported by the H beam 3 inside the grouting hole 2.

However, after the ground work is completed, there is a risk of causing trouble to the adjacent site work, so it is necessary to remove a plurality of steel wires 1a inserted therein. When these steel wires 1a are forced out from the outside using a tensioner, There is a problem that the cutting is performed at the end of the end, and the effect is only about 30 to 40%.

The present invention is conceived in view of the above problems, the present invention is provided with a welding member in each of the buried end of the tension member adjacent to each other by the welding member by the power of different polarity applied to the steel wire of each tension member from the outside The main purpose is to provide a wire anchor removal device of the earth anchor having a simpler working configuration and easy operation and a very high wire removal efficiency by allowing the steel wire to be thermally deformed, so that it can be simply removed by the tensioner.

It is another object of the present invention to provide a ground anchor removing device of the earth anchor that can be a very economical work by providing a reduction in working time and manpower.

1 is a structural diagram of a conventional general earth anchor,

Figure 2 is a side view showing the main portion configuration according to the present invention,

3 is a detailed cross-sectional view of the wire removal device according to the present invention,

4 is an exploded perspective view showing an embodiment of a welding member according to the present invention;

5 is a detailed cross-sectional view showing a state in which the steel wire is thermally deformed according to the present invention.

※ Explanation of symbols for main part of drawing

10: tension member 11: steel wire

12 case 20 welding member

21: interior 22: appearance

23: welding rod 24: insulation cover

25: cap

The present invention to achieve the above object and a plurality of tension member embedded in the temporary foundation; A welding member having a pair of tension members adjacent to each other of the tension members as a pair so that the buried ends of the tension members are respectively provided so as not to contact each other;

The welding member has a double tube shape consisting of a conductive outer tube and an inner tube, and the outer tube and the inner tube are integrally formed while maintaining a predetermined distance by a plurality of welding rods, and the tension member penetrating the center of each welding member is removed from the case. The steel wires are brought into contact with the inner tubes of the respective welding members, and the other part of the tension members is removed so that the case is removed so that the outer surface of the exposed steel wires is brought into contact with the appearance of the welding member provided in the tension material adjacent thereto. have.

This will be described in more detail with reference to the accompanying drawings.

Figure 2 shows the main part configuration according to the present invention, Figure 3 is a sectional view of the main part specifically showing the coupling configuration of the welding member of the present invention, Figure 4 shows an embodiment of a welding member according to the present invention Isolated perspective view.

As shown, the present invention has the most prominent feature in that the welding member 20 is largely coupled to the tension member 10.

At this time, the tension member 10 is a configuration consisting of a case 12 for twisting a plurality of steel wires at the same time to form a single wire body 11, such that the wire body 11 is embedded therein.

A plurality of such tension members 10 are embedded in the grouting hole of the temporary foundation.

The welding member 20 is a pair of the tension member 10 adjacent to each other among the plurality of tension members 10 embedded in the grouting hole as a pair so as to be coupled to each other so as not to contact each other at the embedded end of each tension member 10. It is a constitution.

That is, one welding member 20 is provided at different positions at buried ends of the tension members 10 adjacent to each other.

At this time, the welding member 20 is connected to the inner tube 21 and the outer 22 of the conductive material and the inner tube 21 and the outer 22 as a plurality of welding rods 23 so that the gap therebetween is constant. It is a constitution.

The welding member 20 allows the tension member 10 to pass through the inner tube 21. At this time, a portion of the tension member 10 passing through the inner tube 21 and a part of the front end side of the weld member 20 are removed to the outside. To be exposed to the state, at this time the distance between the two portions of the case 12 is removed from the tension member 10 to be constant.

On the other hand, the welding member 20 is formed in a double tube structure as a conductive material, as shown in Figure 4, from both sides of the outer surface 22, the insulating cover 24 is coupled to a smaller diameter than the outer diameter of the outer surface 22, such From the outside of the insulating cover 24, the cap 25 for coupling the grouting to the inside of the welding member 20 is prevented to be configured to be configured.

Therefore, the outer surface 22 of the welding member 20 coupled to each other in the pair of tension members 10 is in direct contact with the exposed steel wire 11 so that some cases 12 of the tension members 10 are peeled off. It is to be made.

Thus, inside the mutual welding member 20, the steel wire 11 in which the case 12 of the tension member 10 passing through this welding member 20 is removed passes through the inner tube 21 in contact, and the exterior 22 ) Is to be in contact with the steel wire 11, the case 12 of the adjacent tension member 10 is removed.

Therefore, through the inner tube 21 and the outer shell 22 of the welding member 20 is provided with a structure that eventually comes into contact with the steel wire 11 of a set of tension members 10, two sets into the grouting hole formed in the temporary ground The above tension member 10 is inserted to be embedded.

On the other hand, the inner tube 21 and the outer shell 22 of the welding member 20 is provided with a good conductivity, it is most easy to use a new column.

In particular, when the plurality of tension members 10 are inserted into the grouting hole, it is most preferable to have a grouting supply pipe (not shown) to be inserted and embedded together with the tension member 10 at the same time.

Steel wire removal of the earth anchor according to the above configuration is made as follows.

As described above, the present invention fills the grouting into the grouting hole in the state where two or more sets of tension members 10 are inserted into the grouting hole formed in the ground.

Once the tensioning member 10 is tensioned with a predetermined tensile force by using a tensioner from the outside while curing and grouting, it is possible to maintain a firm ground reinforcement while maintaining a tensioned tension state.

After the ground work is completed, many structures that are installed for ground reinforcement are dismantled. At this time, the steel wire 11 which is buried in a tight tension state inside the grouting hole is removed.

To this end, first, a power source having a different polarity is applied to a pair of steel wires 11 that allow the steel wires 11 to contact each welding member 20 from the outside, as shown in FIG. 5.

When the power is applied to the steel wire 11, the power flowing through the steel wire 11 is welded to the adjacent tension member 10 in contact with the steel wire 11 in a state where the case 12 is removed from the buried end and exposed to the outside. Power is transmitted to the member 20.

At this time, since the power having a different polarity flows through the steel wire 11 through the inner tube 21 inside the welding member 20, the power is finally energized between the different polarities in the welding member 20. You lose.

By this action, arc welding is performed by a plurality of welding rods 23 connecting the inner tube 21 and the outer tube 22 to heat the inner tube 21 to a severe temperature, and the inner tube 21 is heated. The steel wire 11 passing through the inner tube 21 causes thermal deformation.

In this way, if heat deformation occurs in the steel wire body 11 by applying power for a predetermined time, the strength of the steel wire body 11 is significantly lowered. Therefore, when the steel wire 11 is tensioned using a tensioner from the outside, The steel wire 11 is broken inside the deformed welding member 20 and can be taken out and removed.

Therefore, once the welding member 20 is coupled to the tension member 10 and embedded, the welding member 20 may be applied to the steel wire 11 of the tension member 10 drawn outward for a predetermined time. When the heat deformation of the steel wire 11 in the inside of 20) it can be easily pulled out as a tensioner to be taken out to the outside easier to remove the wire.

In addition, by simply pulling the steel wire 11 by using a tensioner, the steel wire 11 is already easily broken by heat deformation and is easily taken out to the outside, thereby making the work more convenient and preventing waste of time and manpower. It becomes the number.

As described above, according to the present invention, each tension member is brought into contact with the steel wire 11 exposed by removing some cases 12 between the tension members 10 adjacent to each other at the buried end of the tension member 10 inserted into the grouting hole. By the improvement of a simple configuration in which the welding member 20 is provided on the 10, by the easy electrical operation of applying power of different polarities to the different steel wires 11 of the respective tension members 10 and the tension using the tensioner The steel body 11 can be almost completely removed.

In particular, the present invention has a very useful effect of providing a very economical work process by significantly reducing the time or labor costs required for the steel wire removal work.

Claims (3)

A plurality of tension members embedded in the temporary ground; A welding member having a pair of tension members adjacent to each other of the tension members as a pair so that the buried ends of the tension members are respectively provided so as not to contact each other; The welding member has a double tube shape consisting of a conductive outer tube and an inner tube, and the outer tube and the inner tube are integrally formed while maintaining a predetermined distance by a plurality of welding rods, and the tension member penetrating the center of each welding member is removed from the case. To allow the steel wires to come into contact with the inner tubes of the respective welding members, and the other part of the tensile material to remove the case so that the outer circumferential surface of the exposed steel wires is brought into contact with the appearance of the welding member provided in the tension material adjacent thereto. Liner removal device. 2. The welding member of claim 1, wherein the welding member includes: an inner tube through which the steel wire penetrates, an outer surface provided to the outside of the inner tube, a plurality of welding rods connecting the inner tube and the outer tube, and a diameter smaller than an outer diameter of the outer surface from both sides of the outer tube; And an insulation cover coupled to each other, and a wire anchor removing device having a configuration in which a cap for preventing grouting from being introduced into the outside of the insulation cover is combined. The steel wire removal apparatus of claim 1, wherein the inner tube and the outer tube of the welding member are made of a material having good conductivity.