KR960003749B1 - An earth anchor structure - Google Patents

Abstract

The anchor structure has a steel wire in fencer with several other steel wires arranged at regular intervals round the central wire for the space between the central wire and the peripheral wires to be filled with an electrically heat generating functional medium. When connected to power the anchor electrically generates heat in concrete to help cure the concrete.

Description

Underground anchor construction

1 is a partial cross-sectional view of an embodiment of the present invention,

2 is a cross-sectional view of an embodiment of the present invention underground anchor structure,

Figure 3 (a) is a side view in which a part of the state in which the spacer is fitted at regular intervals in the center steel wire of the present invention is omitted,

(b) is a side view of a state in which the injection hose and the outer steel wire are arranged in the spacer in the state (a),

(c) is a side view of the middle portion of the spacer in a bundle wire in the state (b),

4 is a sectional view of a part of the present invention fusing unit,

5 is a schematic cross-sectional view of the free field portion of the present invention,

Figure 6 is a perspective view of the excerpts in the state that the steel wire and the injection hose is disposed on the spacer of the present invention,

7 is a perspective view of a spacer used in the present invention,

(A) and (b) of FIG. 8 are perspective views of another embodiment of FIG.

9 is a power supply connection diagram of the anchor structure of the present invention before cement grout.

* Explanation of symbols for main parts of the drawings

1: spacer 2: center steel wire

3: outer circumference steel wire 4: injection hose

5: insulation coating 6: bundle wire

7: power 8,8 ': recessed part

9: Current regulator 10,20: Spacer

11: incision 12: central pipe

13: concave portion 14: protrusion

15: underground excavation hole 16: temperature sensor

17: sensor line 100: anchor structure

The present invention relates to a structure for underground anchor construction, and in particular, by placing a number of steel wires in a radial position around a single steel wire at regular intervals, the heat generating medium is filled between the space between the center wire and the outer steel wire It relates to an underground anchor construction structure that enables the heat generation.

The anchor structure of the underground anchor construction method of the 1991 patent application No. 15164 proposed by the present inventors has two recesses in which the recesses in which steel wires are disposed are formed on one outer circumferential surface and the insertion recesses of the injection hose are formed on the other side. In order to form the anchor structure as two sets of multiple spacers, the same number of steel wires are arranged, and the injection hoses are placed at the center and each spacer is wound with a bundle wire to fix the anchoring structure.長) (B) form a structure, and in the free field (A), the various strands of wires extending from the anchorage are classified by terminals of the power supply, and then all the wires connected to any one terminal are worked. Insulation coating should be carried out.

The defect of the anchor structure used in this method is to support the steel wires arranged in the upper and lower outer flaws of the divided spacers by winding the bundle with insulation coated wire, so that the contact friction with the ground during transportation and insertion after making the anchor structure Due to this, the sheath of the bundled wires that bind the steel wires is frequently damaged, and as a result, the insulation state is destroyed, and when power is applied to the corresponding steel wires, it is not possible to heat the cement grout filled by the short circuit, thus preventing rapid curing. Sometimes the spacers were peeled off due to the dropping of the bundled wires and the bundles had to be bundled again.

Another drawback of this method is that several wires corresponding to one terminal must be insulated and coated with a synthetic resin tube to insulate the free field part consisting of only a plurality of wires extending out from the structure of the anchorage as described above. In addition to the large amount of insulation tubes required for each of the steel anchor structures, the work process for covering them was cumbersome.

Therefore, there is a need for a steel wire arrangement structure of an anchor structure in which an insulation state can be maintained even without covering an insulating tube on all of the wires corresponding to one terminal of the power supply while preventing the covering damage and dropping of the bundled wire. In particular, the internal structure In addition, when power is applied in a cement grouted state, there is a need for a structure having a layout structure in which an interval between two terminals supplied to the whole structure is properly maintained.

In view of the necessity of the present invention, the electric heating interval between the steel wires is properly maintained throughout the entire anchorage, and the insulation means of the free field is further reduced while the insulation means of the bundled wire, steel wire, etc. are not provided in the anchorage. It is an object of the present invention to provide a structure of a steel wire arrangement that does not have to be.

In order to achieve the above object, the present invention freely arranges the injection grout for cement grouting while simultaneously placing several steel wires in a circumferential position around the insulated coated steel wire. And the anchorage which is extended from the center steel wire and at the same time, the steel wire of the spiral state in which the insulation coating is removed is positioned at the center and the outer steel wire and the injection hose are arranged on the circumference to maintain a constant distance as a means for maintaining the space. It is characterized by the fact that several different steel wires are placed within a radius of the steel wire, and a certain distance is maintained between the center steel wire and the outer steel wire to uniformly heat the cement grout positioned between them when the power is supplied. It is possible to achieve a quick curing effect during curing, and to insulate only the center wire of the free field. In order to prevent the short circuit of several steel wires, it is not possible to cover the insulating tube on the steel wire of the opposite polarity every day. In particular, one such steel wire is located at the center, and a plurality of steel wires on the circumference are formed. There is also a feature that improves the defects of the conventional two sets of gap maintaining means by renewing the gap holding means for holding the arrangement structure of the anchorage to be arranged.

Hereinafter, a preferred embodiment of the present invention based on the accompanying drawings.

The present invention is largely divided into a free field (A) and a fixing station (B), the fixing unit (B) in Figure 8 as a gap maintaining means for maintaining the steel wire arrangement structure of the fixing unit (B) of the present invention constant A spacer 1 as shown is proposed. First, the basic steel wire arrangement structure of the present invention will be described.

The present invention implements the structure of the steel wire to form the anchor structure with a structure in which several other steel wires (3) are arranged within a predetermined radius from the central steel wire (2) and in the free field (A) to prevent the short circuit Insulating means (5) are provided in (2), but the fixing unit (B) is provided with several spacers (1) at regular intervals throughout the fixing unit (B) to prevent short circuits of the steel wires without the insulating unit (5). Is installed.

Specifically, in the free field A, the outer circumferential steel wire 3 and the injection hose 4 are arranged at a predetermined length at the circumferential position of the center steel wire 2 having the insulation coating 5 (although there is actually a slight radial deviation. The anchorage (B) is a circle centered around the steel wire (2) by interposing a spacer (1) between the center steel wire (2) located in the center, the outer peripheral steel wire (3), the injection hose (4) By maintaining a constant gap between the outer steel wires (3) of the columnar phase, when filling the heat generating medium during construction, if one terminal of the power supply to the central steel wire (2), and the other terminal of the power supply to the outer steel wires (3) There is no worry of.

In addition, the spacer 1 forms a central tube 12 penetrating both ends, and an outer circumferential surface forms a protrusion 14 and a recess 13, but the protrusion 14 has several recesses 8. , (8 '), the incision 11 is formed, the incision 11 is in communication with the center tube 12, the steel wire (2) located in the center tube 12 by tightening the projection 14 Pressure, support is possible.

The anchor structure 100 completed by the arrangement of the spacer 1 and the steel wires 2 and 3 of the basic structure is free as shown in FIGS. 2, 3, and 5. After the insulation coating 5 along the center steel wire 2 of the intestine A, the fixing wire B passes through the steel wire 2 through the center hole 12 of the spacer 1 without insulation coating. In the concave portion 8 ', the injection hose 4 is placed on the concave portion 8' while the steel wires 3 are placed on several concave portions 8, and the ordinary bundle wire 6 without insulation coating at the concave portion 13 is formed. The outer periphery steel wires 3 are pressed against the protrusions 14 by the bundles of the steel wires 3 and the injection hoses 4), so that the gap between the cutouts 11 is narrowed so that the hole 12 in the center of the ridges 14 is formed. ), The center steel wire (2) is pressed down.

Therefore, in the anchorage (B), the structure is formed in a structure in which the interval is maintained while arching as shown in FIGS. Such an anchor structure 100 is installed in the excavation hole 15 after attaching the sensor line 17, the current regulator 9 after installing the temperature sensor 16.

After the grouting is completed, one terminal of the power source 7 is connected to the center steel wire 2, and the other line of the power source 7 is connected to the outer steel wires 3, and then the power supply 7 is supplied to the center steel wire 2. Curing begins by causing the cement grout between the wire and the outer steel wires (3) to heat up and heat up faster than natural curing. That is, the cement grout filled between the steel wires (2) and (3) of different polarity acts as a heat generating resistor, and the power supply according to the smoke temperature is applied to the temperature sensor (16) and the sensor line installed in the center steel wire of the fixing part. (17) and the temperature value measured by the current regulator (9). After curing, the steel wires 2 and 3 are firmly fixed to the fixed structure installed on the beam. In addition, the spacing between the spacer (1) 10, 20 as described above is maintained about 0.5m and the number of spacers can be appropriately adjusted to the length of the excavation hole.

In the present invention, the arrangement principle of the steel wires as described above can be variously implemented, and thus the spacer can be implemented in the form of a hexagonal or octagonal shape, and the number of outer steel wires can be increased or decreased.

The anchor structure of the present invention looked through such an embodiment of the insulation for insulation in the short circuit and the free field due to the damage of the insulation binding material, which is the most frequent problem in the underground anchor construction method of electrical heating curing. There is an improvement that will improve excessive consumption of the tube.

Claims (2)

The free field A arranges the outer circumferential steel wire 3 and the injection hose 4 at a predetermined length at the circumferential position of the center steel wire 2 with the insulation coating 5, and the fixing field B is the center. While placing the one steel wire (2) extending from the steel wire (2) in the center with the insulation removed, the steel wire (3) between the outer circumferential steel wire (3) and the injection hose (4) through the gap maintaining means (1) Anchor structure for underground anchor construction, the power supply is characterized in that the outer circumference steel wire (3) is arranged in the same radius around 2). The method according to claim 1, wherein the spacing means (1) forms a central tube (12) penetrating both ends, and the outer circumferential surface of the protrusion 14 and the recessed portion (13), Indentation (8) (8 '), forming the incision 11, the incision 11 is in communication with the central tube 12 is located in the center of the tourism 12 by the tightening of the projections (14) Anchor structure spacer, characterized in that the steel wire (2) is made of a spacer for the anchored.