KR200359013Y1 - Ground Anchor having Reinforcement for Grouting Concrete - Google Patents

Abstract

The present invention has a structure that can prevent the tensile cracks in the grouting around the anchor by converting the tensile force from the surface into a compressive force to act on the grouting around the anchor, the longitudinal reinforcing bars and spirals in the grouting to reinforce the grouting The present invention relates to an anchor having reinforcing bars made of reinforcing bars.

In the present invention, a pressure-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 A tendon 20 which connects the anchor body 10 to the anchor body 10 by connecting the 30 and the anchor body 10 to each other; The anchor body (10) is provided with a lower manshon (11) biting the end of the tendon (20); When the tensile force is applied to the tendon 20 by an external force and the lower manshon 11 is pulled together, a pressure ring 12 having a hollow formed at the center to press the grout formed to the outside to apply a compressive force to the grouting is applied. ) Is installed at the front of the lower manshon (11) at the connection portion of the tendon (20) and the lower manshon (11), converting the external tensile force into a compressive force and applied to the grouting; In the grouting spiral reinforcing bar 41 is arranged in a spiral form for reinforcing the grouting, and longitudinal reinforcing bars 42 arranged in the longitudinal direction outside the tendon for reinforcing the grouting and maintaining the spacing of the spiral reinforcing bars 41. Anchor is provided, characterized in that the reinforcing bar 40 made of a) is disposed.

According to the acupressure-type compression anchor of the present invention as described above, since the compression force is applied to the grout rather than the tensile force, it is possible to prevent the occurrence of tensile cracking in the grouting. In addition, in the present invention, since the reinforcing bar 40 is disposed in the grouting, the stiffness of the grouting mainly made of concrete is increased, so that even if a tensile force is applied to the anchor, cracking occurs in the grouting. do. Therefore, the effect that the tendon is damaged due to leakage or the like and the loss of the function as the anchor can be prevented.

Description

Anchor with Grouting Rebar {Ground Anchor having Reinforcement for Grouting Concrete}

The present invention relates to an anchor which is permanently or temporarily embedded in the ground to transfer the tensile force from the surface to the ground, and converts the tensile force from the surface into a compressive force to act on the grouting around the anchor, thereby causing a tensile crack in the grouting around the anchor. The present invention relates to an anchor having a structure capable of preventing this from occurring and having reinforcing bars made of longitudinal bars and spiral bars in the grouting to reinforce the 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.

Therefore, in order to improve the function of the anchor, it is very important that cracking does not occur in the grouting.

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 is generated, specifically, by converting the tensile force from the surface into a compressive force around the anchor It has a structure that can prevent tensile cracking in the grouting around the anchor by acting on the grouting of the anchor, and to provide an anchor reinforced with grouting by installing a reinforcing bar composed of longitudinal bars and spiral bars in the grouting It is for the purpose of design.

1 is a schematic view of a state in which the anchor is buried in the anchor hole of the ground is fixed to the concrete block of the ground.

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

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

3A is a schematic enlarged view of a portion C of FIG. 1.

FIG. 3B is an overall perspective view of what is shown in FIG. 3A.

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

1 anchor 10 anchor body

11 Lower Manshon 12 Shiatsu Ring

20 tendon 40 rebar

41 Spiral Reinforcing Bar 42 Longitudinal Reinforcing Bar

In order to achieve the above object, in the present invention, the anchor embedded in the ground to transfer 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 the anchor A tendon which connects the head and the anchor body to transmit 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; When the tensile force is applied to the tendon by an external force and the lower manshon is pulled, a pressure ring having a hollow in the center is pressed together to press the grouting formed on the outside to apply a compressive force to the grouting. It is installed in the front part of the lower manshon at the connection part, and converts the external tension force into compressive force and applies it to grouting; Within the grouting, a reinforcing bar composed of a spiral reinforcing bar arranged in a spiral form for reinforcing grouting and a longitudinal reinforcing bar arranged in a longitudinal direction outside the tendon for reinforcing the grouting and maintaining a spacing of the spiral reinforcing bars Characteristic anchors are provided.

According to the anchor of the present invention, since a compressive force rather than a tensile force is applied to the grouting, tensile cracking is prevented from occurring in the grouting, thereby preventing tendons from being damaged due to water leakage and the like, thereby preventing the anchoring function from being lost. The effect is that there is. In addition, in the anchor of the present invention, since the reinforcing bars composed of spiral reinforcing bars and longitudinal reinforcing bars are disposed in the grouting, the strength of the grouting is increased to exhibit a great reinforcing effect.

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 anchor 1 according to the present invention is embedded in the anchor hole 43 of the ground and fixed to the concrete block 38. In FIG. 1, the grouting is not yet injected, and the upper anchor head is provided with a stopper 36 and partially cut away from the stopper 36. Although the stoppers 36 are provided in the above-described embodiment, the stoppers 36 are not essential in the present invention and may not be provided in some cases.

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

2A and 2B are schematic cross-sectional views taken along the lines A-A and B-B of FIG. 1, respectively, for convenience the grouting is shown without injection.

In the present invention, the tendon 20 is preferably composed of a coated strand. Specifically, as shown in FIG. 2A, the coated strand includes a PC strand 21 made by twisting a plurality of strands of PC strand, and an external anti-corrosive oil such as grease is coated on the outside of the PE strand and It consists of an unbonded PC strand that is covered by the same waterproof coating. The tendon 20 may be composed of a multi-component PC strand twisted by twisting the PC strand again.

As described above, in the present invention, the tendon 20 is provided with measures (anti-rust oil coating, PE coating film) to prevent corrosion on the outside of the strand, so that the tendon 20 is prevented from corroding due to external moisture penetration. A slide pipe 22 is coated to the outside of the coated strand.

In the present invention, the anchor body 10 is provided with a lower manshon 11 holding the end portion of the tendon 20. A spacer 50 may be provided outside the lower manshon 11 to maintain a distance from the anchor hole 43.

At the connecting portion of the tendon 20 and the lower manshon 11, the acupressure ring 12 is provided at the front of the lower manshon 11. FIG. 3A shows an enlarged view of the portion C of FIG. 1. For convenience, the spacer 50 is omitted in FIG. 3A, and the pressure ring 12 is shown in a cross-sectional shape. FIG. 3B is an overall perspective view of what is shown in FIG. 3A.

As shown in FIG. 3A, the acupressure ring 12 has a diameter larger than that of the lower manshon 11 so that a portion of the front part of the lower manshon 11 is inserted, and the tendon 20 penetrates in the center. The hollow is formed so that it can be. In the embodiment shown in the figure, a plurality of concave grooves 13 are formed at another side of the acupressure ring 12, that is, on the opposite side of the lower manshon 11 so that the ends of the longitudinal reinforcing bars 32 to be described later are fitted. It may be.

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. 1 (not shown in the protective cap in FIGS. 3A and 3B). ).

As shown in Figure 1, Figure 3a and Figure 3b, in the present invention is a reinforcing bar 40 is disposed in the grout to reinforce the grouting, the reinforcing bar 40 is a spiral reinforcement 41 having a spiral shape and It consists of a number of longitudinal reinforcing bars 42 arranged outside the tendon in the longitudinal direction of the anchor to maintain the spacing of the spiral reinforcement 41 and to reinforce the grouting in the longitudinal direction. The end of the longitudinal reinforcing bar 42 may be fitted into the recessed groove 13 of the acupressure ring 12.

As such, in the present invention, since the reinforcing bar 40 is disposed in the grouting, the stiffness of the grouting mainly made of concrete is increased, so that problems such as cracking in the grouting are prevented even if a tensile force is applied to the anchor. It becomes possible.

On the other hand, in the embodiment shown in the figure, the anchor head 30 has a fixing structure of the wedge cone type. That is, at the upper end of the tendon 20, the strands are bitten by the wedges 31, respectively, and are fixed in the form of being fitted into wedge cones formed in the fixing holes 32. After the strand of the tendon 20 is fixed, the anchor cap 35 is covered at the top. In FIG. 1, the member 34 is the pressure plate 34. In addition, the illustrated embodiment is provided with a stopper 36 made of a pleated cisp for protecting the portion where the strand of the tendon 20 diverges. The stopper 36 and the tendon 20 are engaged with each other and are connected to the water stop tube 37 for waterproofing.

However, the present invention is because the anchor head type is not limited to the wedge cone type as described above, it is possible to configure the anchor head in a generally known nut type, the stoppers 36, the exponential tube 37 is provided You may not do it.

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 It is filled to the outside to form grouting.

In the 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 lower manshon 11 The acupressure ring 12 installed at the front of the c) exerts a compressive force on the grouting formed outside 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 by the pressure ring 12 installed at the front of the lower manshon 11.

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

However, in the anchor 1 of the present invention, since the external tensile force is converted into a compressive force and applied to the grouting, tensile cracking is prevented from occurring in the grouting as in the prior art.

In addition, in the present invention, since the reinforcing bar 40 is disposed in the grouting, the stiffness of the grouting mainly made of concrete is increased, so that cracks may not be generated in the grouting even when a tensile force is applied to the anchor. Accordingly, problems such as penetration of moisture due to cracking of grouting, corrosion of tendon, and consequent loss of function as anchors can be prevented at the source.

As described above, 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 by the pressure ring 12 installed at the front of the lower manshon 11. As a result, tensile cracking in the grout is prevented.

In addition, in the present invention, since the reinforcing bar 40 is disposed in the grouting, the stiffness of the grouting mainly made of concrete is increased, so that even if a tensile force is applied to the anchor, cracking occurs in the grouting. do.

Therefore, in the present invention, the tendon 20 may be damaged due to leakage due to cracking of grouting, thereby preventing the loss of function as an anchor.

Therefore, the use of the anchor (1) of the present invention can improve the construction quality by easy construction management, maintenance and it is possible to secure sufficient stability after the fact. In addition, the present invention uses the tendon 20 made of a non-attached PC strand is coated with rust preventive oil on the outside of the strand is excellent in resistance to corrosion.

In addition, the anchor head may also be provided with a stoppersis 36 around the strand, the installation of the stoppersis 36 in this way to strengthen the protection of the stranded wire in the anchor head.

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 utility model registration claims of the present invention.

Claims (1)

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 tensile force is applied to the tendon 20 by an external force and the lower manshon 11 is pulled together, a pressure ring 12 having a hollow formed at the center to press the grout formed to the outside to apply a compressive force to the grouting is applied. ) Is installed at the front of the lower manshon (11) at the connection portion of the tendon (20) and the lower manshon (11), converting the external tensile force into a compressive force and applied to the grouting; In the grouting spiral reinforcing bar 41 is arranged in a spiral form for reinforcing the grouting, and longitudinal reinforcing bars 42 arranged in the longitudinal direction outside the tendon for reinforcing the grouting and maintaining the spacing of the spiral reinforcing bars 41. Anchor having a grouting reinforcing bar, characterized in that the reinforcing bar 40 is made of).