KR20040006552A - Compressive Bearing Type Ground Anchor - Google Patents

Abstract

PURPOSE: A compressive ground anchor is provided to prevent crack on the grout around the anchor by converting tension from the surface into compressive force, and to restrict damage of a tendon by preventing leak with applying compressive force to the grout. CONSTITUTION: A compressive anchor is composed of an anchor body(10) fixed on the ground; an anchor head(30) fixing the anchor on the surface; and a tendon(20) connecting the anchor head and the anchor body, and transmitting tension to the anchor body. The end of the tendon is fixed by a lower sleeve(11) in the anchor body, and a bearing member(12) is installed in the lower sleeve to apply compressive force to the grout in pulling the lower sleeve by transmitting tension from external force to the tendon. The compressive anchor converts external tension into compressive force to the grout. The tendon is formed by twisting prestressed concrete steel strands, spreading the antirust agent and covering the strands with the waterproof coating film.

Description

Compressive Bearing Type Ground Anchor

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pneumatic compression anchor that is permanently or temporarily embedded in the ground to transfer tensile forces from the surface to the ground, thereby converting the tensile force from the surface into compressive forces to act on the grouting around the anchor. The present invention relates to a pressure-type compression anchor having a structure capable of preventing tensile cracking from occurring in grouting.

The anchor is embedded in the ground to transfer the tensile force from the surface to the ground, generally the anchor body embedded in the ground, the tension portion consisting of a tendon (tendon), such as PC strands, anchor head to fix the tension portion to the ground surface It consists of (頭部).

Concrete is injected around the anchor to form grouting to support the tensile force from the surface by the ground pressure of the grouting or the frictional force with the ground. In a conventional anchor, the anchor body is pulled by the tension force from the surface, and thus the tension force acts on the grouting. However, since the concrete forming the grouting is very vulnerable to the tensile force, in many cases tensile cracking occurs in the grouting by the tensile force when the anchor body is pulled.

When such tensile cracking occurs in the grouting, moisture or the like penetrates through the crack, thereby causing the tendon of the tensile portion to corrode and eventually losing its function as an anchor.

The present invention was developed in order to overcome the problems of the conventional anchor that the tensile force is generated in the grouting by the external force as described above, the tensile crack occurs, specifically, by converting the tensile force from the surface into a compressive force around the anchor It is an object of the present invention to provide a pressure-compression anchor having a structure that can prevent tensile cracking from occurring in the grouting around the anchor by acting on the grouting of the anchor.

1 is a schematic view of a state in which the pressure-type compression anchor according to the present invention is embedded in the anchor hole of the ground and fixed to the concrete block of the surface.

2A is a cross-sectional view taken along the line A-A of FIG. 1, and FIG. 2B is a cross-sectional view taken along the line B-B of FIG.

3 is a cross-sectional view of another embodiment of tendon used in acupressure compression anchors according to the present invention in the line A-A position of FIG.

* Explanation of symbols for the main parts of the drawings *

1 Acupressure Compression Anchor 10 Anchor Body

11 lower manshon 12 pressure body

20 tendon 21 multiplex PC strand

22 Antirust oil 23 Waterproof coating

30 Anchor Head 31 Upper Manshon

36 Protective Steel Pipe 40 Grouting

In order to achieve this object, in the present invention, a pressure-type compression anchor buried in the ground in order to transmit the tensile force from the surface to the ground, the anchor body fixed to the ground, the anchor head fixing the anchor to the surface And a tendon that connects the anchor head and the anchor body to transfer the tensile force from the surface to the anchor body; The anchor body is provided with a lower manshon biting the end of the tendon; The lower manshon is provided with a pressure bearing body, when the tensile force is applied to the tendon by an external force, when the lower manshon is pulled together, the pressure body is pulled together to convert the external tension force into a compressive force to press the grout formed on the outside to compress the grouting force There is provided an acupressure compression anchor which is to be applied.

According to the acupressure-type anchor of the present invention as described above, since a compressive force rather than a tensile force is applied to the grouting, tensile cracking is prevented from occurring in the grouting, and thus, the tendon is damaged due to leakage, thereby losing its function as an anchor. The effect of being able to prevent it is exerted.

In the acupressure compression anchor of the present invention described above, the acupressure body is composed of a nut mounted on the lower manshon; The tendon may be composed of a non-adhesive multi-composite PC strand, which is coated with a waterproof coating film after the rust preventive oil is applied to the outside in a state where the twisted PC strand is made by twisting a predetermined number of strands of PC wire. have.

In addition, as another embodiment of the acupressure compression anchor of the present invention, the PC strands made by twisting a predetermined number of strands of PC steel wire twisted to a predetermined number of the waterproof coating film is directly coated on the outside thereof Composed of an attached multiplex PC strand, which can be configured to further cover the waterproof protective pipe over the waterproof coating film.

In addition, in the present invention, as another embodiment of the acupressure compression anchor, the anchor head, the upper manshon which is connected to the upper end of the tendon, a fixing nut which is provided at the end of the upper manshon, and the fixing nut Is composed of an anchor plate to be fixed; In the periphery of the upper manshon, there is provided a pressure-compression type anchor, characterized in that the protective steel pipe is installed to further protect the side of the upper manshon.

According to this embodiment, since a protective steel pipe is installed around the upper manshon, it is possible to prevent damage to the upper manshon that may occur during the construction and use of the anchor, such as when the anchor is inserted or settled.

Hereinafter, with reference to the accompanying drawings will be described the configuration and effect of the present invention.

1 is a schematic view of a state in which the pressure-type compression anchor 1 according to the present invention is embedded in the anchor hole 41 of the ground and fixed to the concrete block 42. In FIG. 1, the grouting is not yet injected.

The acupressure compression anchor 1 of the present invention is an anchor body (10) fixed to the ground, an anchor head (30) for fixing the anchor to the surface, and the anchor head 30 and the anchor body (10) It is composed of a tension portion, that is, tendon 20 to connect the tensile force from the surface to the anchor body (10) by connecting.

Figure 2a is a cross-sectional view taken along line A-A of Figure 1 showing the configuration of the tendon 20 in the free field portion of the anchor, which is shown in cross-sectional view in the state where the grouting 40 is completed for convenience. In the embodiment shown in Figure 2a tendon 20 is composed of a multi-ply PC twisted wire 21 is made by twisting the seven strands of PC strands made by twisting the seven strands of PC steel wires, the outside of the anti-rust oil such as grease ( It consists of an unbonded multi-composite PC strand wire coated with an anti-corrosive oil 22 and coated on the outside by a waterproof coating 23 such as a PE coating film.

As described above, in the present invention, the tendon 20 is provided with measures (anti-rust oil coating, PE coating film) for preventing corrosion on the outside of the strand, so that the tendon 20 is prevented from corroding due to external moisture penetration. For reference, in FIG. 1, the tendon 20 is illustrated in a state where the multiplexed PC strand 21 is exposed to show an internal structure.

In the present invention, the anchor body 10 is provided with a lower manshon 11 holding the end portion of the tendon 20. FIG. 2B is a cross-sectional view taken along the line BB of FIG. 1, that is, a cross-sectional view at the lower manshon 11. The state in which the multi-composite PC strand 21 is strongly engaged with the lower manshon 11 can be seen from the drawing. . For convenience, FIG. 2B is a cross-sectional view of the grouting state.

At the end of the lower manshon 11 is provided with a pressure bearing body 12, specifically in the embodiment shown in Figure 1 is formed with a screw portion 13 at the end of the lower manshon 11 and the pressure bearing body ( A nut of a predetermined width corresponding to 12) is fitted to the threaded portion 13. In order to facilitate the insertion of the anchor 1, the protective cap 14 may be covered with the shortest end of the lower manshon 11 as shown in FIG. The connection portion between the tendon 20 and the lower manshon 11 is covered with an index tube 15 made of a waterproof material to prevent penetration of moisture and the like.

In the acupressure compression anchor 1 of the present invention, the anchor head 30 is provided at the upper mansion 31 and the end of the upper manshon 31 connected to the upper end of the tendon 20. The fixing nut 32 and the anchor plate 33 to which the fixing nut 32 is fixed. In Fig. 1, reference numeral 34 denotes an end sheath 34 inside which is filled with rust-preventive oil for protecting the surface of the upper manshon 31. Reference numeral 35 is an anchor cap 35 to cover and protect the upper manshon 31. In the present invention, in order to further protect the side of the upper mansion 31, a protective steel pipe 36 is installed around the upper mansion 31. A portion of the upper manshon 31 and the tendon 20 engaged with each other is covered with an index tube 35 for waterproofing.

After the anchor 1 is inserted into the ground as shown in FIG. 1, a grouting material such as concrete is injected through a grouting tube (not shown) which is inserted side by side on the side of the anchor 1 so that the anchor 1 By filling the outside to form a grouting (40).

In the acupressure compression anchor (1) of the present invention having the configuration as described above when the tensile force is applied to the tendon 20 by the external force, that is, when the lower manshon 11 is connected to the end of the tendon 20 is pulled, The pressure bearing member 12 installed on the lower manshon 11 exerts a compressive force on the grouting 40 formed on the outside of the lower manshon 11.

In other words, in the anchor 1 of the present invention, the external tensile force transmitted through the tendon 20 is converted into a compressive force and applied to the grouting 40 by the pressure body 12 installed in the lower manshon 11.

As described above, in the conventional anchor, the external tensile force is applied to the grout as the tensile force through the frictional resistance between the anchor body and the grout, and thus there is a problem in that the tensile cracking occurs in the grouting 40.

However, in the acupressure compression type anchor 1 of the present invention, since the external tensile force is converted into a compressive force and applied to the grouting 40, tensile cracking is prevented from occurring in the grouting 40 as in the related art. Therefore, problems such as penetration of moisture due to cracking of the grouting 40, corrosion of tendons due to this, and consequent loss of function as an anchor can be prevented.

On the other hand, in the acupressure compression type anchor 1 of the present invention, since the compressive force acts on the grouting 40 as described above, for reinforcing the grouting 40 against the compressive force, as shown in FIG. It is also preferable to reinforce the reinforcing bar 43.

3 is a cross-sectional view (sectional view at line AA position in FIG. 1) of a tendon used in the acupressure compression anchor of the present invention. In the present invention, the tendon 20 provided in the anchor 1 is shown. As shown in FIG. 2B, in addition to the non-adhesive multi-composite strand in which antirust oil is applied to the outside of the strand, as shown in FIG. Attached multi-composite PC strands may be used. In this case, it is preferable that the waterproof protective pipe 24 such as PE pipe is covered over the waterproof coating 23 'such as PE coating film.

As described above, in the acupressure compression type anchor 1 of the present invention, the external tensile force transmitted through the tendon 20 is compressed to the grouting 40 by the acupressure body 12 installed in the lower manshon 11. Since it is converted into and applied to, the cracking is prevented from occurring in the grouting 40, thereby preventing the tendon 20 from being damaged due to leakage and the like, thereby preventing the loss of its function as an anchor. .

Therefore, by using the acupressure-type compression anchor (1) of the present invention, the construction management, maintenance can be easily improved to improve the quality of the construction and it is possible to secure a sufficient stability after.

In addition, the present invention uses a tendon 20 made of an unattached or attached multi-composite PC stranded wire having antirust oil applied to the outside of the strand or directly forming a waterproof coating film such as a PE coating film, thereby resisting corrosion. This is excellent, because the protection head pipe 34 is installed around the upper manshon 31 in the anchor head is also enhanced the protection of the upper manshon 31.

Although the embodiments of the present invention have been described above, the present invention is not limited to the described embodiments, and free modifications and improvements can be made within the spirit and claims of the present invention.

Claims (3)

An anchor type compression anchor buried in the ground to transfer the tensile force from the surface to the ground, the anchor body 10 fixed to the ground, the anchor head 30 for fixing the anchor to the surface, and the anchor head 30 And a tendon 20 which connects the anchor body 10 and transmits the tensile force from the surface to the anchor body 10; The anchor body (10) is provided with a lower manshon (11) biting the end of the tendon (20); When the lower manshon 11 is applied to the tendon 20 by an external force and the lower manshon 11 is pulled, the lower manshon 11 is pulled together to press the grouting 40 formed on the outside to compress the grouting force 40. Acupressure member 12 to be applied is installed, the acupressure-type compression anchor characterized in that the external tensile force is converted into a compressive force and applied to the grouting (40). The method of claim 1, The acupressure body 12 is composed of a nut mounted on the lower manshon 11; The tendon 20 is a non-adhesive multiple, which is coated with a waterproof coating film 23 after rust preventive oil is applied to the outside in a state where the twisted PC strands made by twisting a predetermined number of strands of PC steel are again twisted to a predetermined number. Acupressure compression anchor characterized in that composed of a composite PC strand. The method of claim 1, The acupressure body 12 is composed of a nut mounted on the lower manshon 11; The tendon 20 is composed of an adhesive multi-ply PC strand that is directly coated with a waterproof coating film 23 'on the outside in a state where the twisted strand of PC strand made of a predetermined number of strands of PC strand is twisted again by a predetermined number. And the waterproof coating layer 23 'is provided with a waterproof protective pipe 24 which is further covered with acupressure-type compression anchor.