KR20070038190A - Reinforcing bar anchor having hollow sleeve - Google Patents

Abstract

The present invention provides a new type of deformed reinforcing bar anchors configured to effectively utilize the deformed reinforcing bar as a tension member of an anchor such as a lock bolt or a ground anchor by integrally connecting a round bar sleeve to one end of a general deformed bar used in a reinforced concrete structure. And a method for manufacturing the anchor of such a structure. In the present invention, the sleeve member 20 is formed in a rod shape and has a hollow portion 21 in which an end portion of the deformed steel 10 is inserted, and an end portion in the hollow portion 21 of the sleeve member 20. Consists of a deformed reinforcing bar 10 is inserted; The deformed rebar 10 and the sleeve member 20 are integrally coupled to each other by being pressed in the state where the deformed steel 10 is inserted into the hollow portion 21 of the sleeve member 20. An anchor and a manufacturing method thereof are provided.

Anchor, Ground Anchor, Lock Bolt, Rebar, Crimping, Sleeve

Description

Reinforcing Bar Anchor having Hollow Sleeve with Head Structure by Round Bar Sleeve

1 is a schematic view showing the head shape of the lock bolt using a deformed rebar produced by the prior art.

Figure 2 is a schematic diagram showing the head shape of the lock bolt using a deformed steel bar produced by the rolling method.

Figure 3a is a schematic cross-sectional view of the sleeve member forming a ground anchor as an example of an anchor according to the present invention.

3B is a cross-sectional view taken along the line A-A of FIG. 3A.

3C is a cross-sectional view taken along the line B-B of FIG. 3A.

3D is a schematic view of a deformed rebar coupled with a sleeve member to form the anchor of the present invention.

4A to 4C are schematic views showing each process of manufacturing a ground anchor as an example of an anchor according to the present invention.

5 is a schematic view showing the head structure of the ground anchor as an example of the anchor according to the present invention.

Figure 6 is a schematic diagram showing a structure for installing a ground anchor in the ground as an example of the anchor according to the present invention.

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

 1 anchor 10 deformed steel

 11 Threaded portion 20 Sleeve member

 21 Hollow section 22 Expansion section

 30 sheath pipe

The present invention relates to a deformed rebar anchor having a head structure by a round bar sleeve and a method for manufacturing the same, wherein the deformed rebar is used as a tension member of an anchor by integrally coupling a round bar sleeve to one end of a general deformed bar used in a reinforced concrete structure. The present invention relates to a new type of rebar anchor and a method of manufacturing the anchor of such a structure configured to be effectively utilized.

Throughout this specification (including summaries and claims), the term "anchor" is used for ground anchors, which are embedded in the ground and transfer the tensile force from the surface to the ground, and for preventing detachment of the ground. Used to include all of the rock bolts (rock bolt), and when the distinction is required, the terms "ground anchor" and "rock bolt" were used separately. Therefore, in the present invention, "anchor" should be interpreted as including both the ground anchor and the lock bolt.

Recently, it has been attempted to utilize general deformed reinforcing bars used in reinforced concrete structures as tension members for rock bolts. However, there is a need for a structure for fixing a tension member to a ground surface in a lock bolt, and many difficulties have been found in forming a fixed structure in a rock bolt using a deformed bar that has been tried so far.

1 schematically shows the head shape of a lock bolt using a deformed steel bar manufactured according to the prior art. As shown in the drawings, a lock bolt using a conventional rebar is formed with a threaded portion 11 at one end of the rebar 10 by threading, and a nut 12 is screwed to the threaded portion 11. It was comprised so that it might be supported by the pressure plate 13.

However, in such a configuration, the threaded portion 11 is formed by directly threading one end of the deformed reinforcing bar 10, so that the cross section of the deformed reinforcing bar 10 is lost, so that the effective tensile strength of the lock bolt is significantly reduced. do.

As another conventional technique for manufacturing a lock bolt using a deformed rebar, it has been proposed to manufacture a spiral part by a rolling method over the deformed rebar 10. FIG. 2 schematically illustrates the head shape of the lock bolt according to the related art. The spiral part 14 is formed on the outer surface of the rebar 10 using the rolling method, and the spiral part ( 14 is an anchor is configured to be supported by a pressure plate 13 by fastening a nut 12 fit. However, this configuration has a disadvantage in that a very large cost is required to form the spiral portion 14 in the rolling manner over the entire deformed reinforcing bar 10.

On the other hand, there have been attempts to use the deformed reinforcing bars 10 in the lock bolts so far, but no attempt has been made for the ground anchors. In the case of ground anchors, PC strands made of twisted steel bars or steel wires are generally used as tension members. However, since steel rods and PC strands are relatively expensive, if the rebar 10 can be used as a tension member for ground anchors, it is very expensive. Will be useful.

However, the conventional techniques of manufacturing lock bolts using a deformed steel bar as described above cannot be applied to a ground anchor as it is. This is because in the case of ground anchors, sheath pipes can be installed outside of the tension member, since the prior art of manufacturing lock bolts using deformed steel can not achieve a complete seal of the sheath pipes.

In the prior art as described above, if the sheath pipe is installed outside of the reinforcing bar, the head end of the sheath pipe should be wound with a waterproof tape or the like. Thus, the waterproofing method using the waterproof tape alone cannot completely seal the sheath pipe. There is a fundamental limitation that moisture can penetrate through the end portion, thereby causing damage such as corrosion of the deformed steel bar.

Therefore, it is necessary to develop a new type of head structure in order to use the deformed rebar as a tension member of the ground anchor.

The present invention was developed to overcome the limitations of the above-described prior art of manufacturing a ground anchor or lock bolt using a deformed reinforcing bar, a ground anchor or a lock bolt using a deformed reinforcing bar easily and inexpensively obtained at a construction site. It is possible to manufacture a new material, but it is possible to reduce the effective tensile strength due to the loss of the cross section, which is a disadvantage of the prior art, and to reduce the manufacturing cost, and to completely seal the end of the sheath pipe to prevent damage such as corrosion of the deformed steel. An object of the present invention is to provide a ground anchor or a lock bolt using a deformed steel rebar.

In another aspect, the present invention is to provide a manufacturing method that can be easily and inexpensively manufactured a ground anchor or lock bolt using a new type of rebar.

In order to achieve the above object, in the present invention, the sleeve member is formed in a rod shape and has a hollow part in which an end portion of the deformed reinforcing bar is inserted, and a reinforcing bar in which an end part is inserted into the hollow part of the sleeve member; An enlarged portion having an enlarged hole diameter is formed in the hollow portion at one end side of the sleeve member; Filler is applied to the outer surface of the deformed reinforcing bar at the position where the deformed rebar is inserted into the hollow part of the sleeve member when it is inserted into the hollow part of the sleeve member; An anchor is provided, which has a structure in which the deformed steel and the sleeve member are integrally coupled to each other by being compressed in a state where the deformed steel is located in the hollow part and the expanding part of the sleeve member.

In addition, in the present invention, as an embodiment of the anchor, the outer surface of the end of the sleeve member is provided with an anchor, characterized in that the threaded portion is formed so that the nut can be fastened.

In addition, in the present invention, as an embodiment of the anchor, the anchor is a ground anchor consisting of a head, a free ledger and a fixing part; Sheath pipes are provided outside the deformed reinforcing bars in the free ledger; When the deformed rebar is press-fitted with the sleeve member, an anchor is provided, wherein the head end portion of the sheath pipe is located in the bulge portion of the sleeve member and is compressed and sealed.

In another aspect of the present invention, the anchor is provided, wherein the anchor is a lock bolt.

In addition, the present invention provides a method for manufacturing the anchor of the various embodiments described above.

Hereinafter, with reference to the accompanying drawings will be described the configuration and effect of the present invention. For convenience, the configuration and effects of the anchor according to the present invention will be described using the ground anchor as an example.

3A to 3D show a sleeve member 20 and a deformed reinforcing bar 10 forming a ground anchor 1 as an example of the anchor according to the present invention, and FIGS. 4A to 4C are views of the anchor according to the present invention. As an example, it is a schematic diagram which shows each process of manufacturing the ground anchor 1, FIG. 5 is a schematic diagram which shows the head structure of the ground anchor 1 which is an example of the anchor which concerns on this invention.

For convenience of description, first, a manufacturing process of an anchor according to the present invention will be described with reference to FIGS. 3A to 3D, and FIGS. 4A to 4C and 5.

First, in the present invention, as a member constituting the anchor, a deformed reinforcing bar 10 generally used for construction of a reinforced concrete structure is used. One end of the deformed reinforcing bar 10 is integrally coupled by pressing the sleeve member 20 to form a head. 3a shows a cross-sectional view of the sleeve member 20 for the ground anchor 1. FIG. 3B shows a cross section along line A-A in FIG. 3A and FIG. 3C shows a cross section along line B-B in FIG. 3A. 3d shows a schematic view of the deformed bar 10 coupled with the sleeve member 20.

As shown in the figure, the sleeve member 20 is a rod-shaped member, and a hollow portion 21 into which an end of the deformed steel rebar 10 is inserted is formed at the center thereof. Coupled with the sleeve member 20 is a conventional deformed reinforcing bar 10 that can be commonly obtained at the construction site of reinforced concrete structures. That is, as described below, the end of the deformed steel 10 is pressed into the hollow portion 21 of the sleeve member 20 while being inserted into the sleeve member 20 and the deformed steel 10 to be integrally coupled to each other. An anchor, that is, a lock bolt or ground anchor.

In the case of the ground anchor, a special structure for sealing the sheath pipe 30 is further applied. As shown in Figs. 3A to 3C, the hollow portion 21 at one end side of the sleeve member 20 is further applied. An expanding portion 22 having a large hole diameter is formed. In addition, as shown in FIG. 3D, when the deformed steel 10 is inserted into the hollow portion 21 of the sleeve member 20, the outer surface of the deformed steel 10 may be pressed at a position where the deformed steel 10 is pressed against the expanding portion 22. Filler 15 is applied.

The deformed reinforcing bar 10 and the sleeve member 20 are press-bonded to each other for the manufacture of the anchor. Looking at the manufacturing method of the ground anchor 1 as an example, the deformed bar 10 is first shown in FIG. It is inserted into the hollow portion 21 of the sleeve member 20. At this time, in the case of the ground anchor 1, the portion where the filler 11 is applied in the deformed reinforcing bar 10 is positioned in the expansion portion 22 of the sleeve member 20. In the case of the ground anchor, the deformed reinforcing bar 10 may be inserted into the sheath pipe 30 in the free long part of the ground anchor 1, in which case the deformed rebar 10 may be inserted into the sheath pipe 30. It is inserted into the hollow portion 21 of the sleeve member 20 while being inserted, and one end of the sheath pipe 30 is also located in the expansion portion 22 together with the filler material 15.

Subsequently, the deformed bar 10 and the sleeve member 20 are compressed by a pressing device 100 such as a die and are integrally and firmly coupled to each other. 4b and 4c schematically illustrate this compression bonding process, and FIG. 4b shows the process of pressing while passing through the pressing device 100, and FIG. 4c shows the state of passing through the pressing device 100. . 4B and 4C, reference numeral 201 denotes a press piston 201.

As shown in the figure, the ends of the rebar 10 and the sheath pipe 30 pass through the crimping device 100 in a state of being inserted into the hollow portion 21 and the expansion portion 22 of the sleeve member 20. Thus, the sleeve member 20 and the deformed reinforcing bar 10 are completely integrally compressed. Particularly, in the case of the ground anchor 1 having the sheath pipe 30, as described above, the expansion part 22 is formed on one side of the sleeve member 20, and the filler 15 is disposed on the outside of the deformed rebar 10. In addition, when the sleeve member 20 is compressed, a gap between the sleeve member 20 and the deformed reinforcing bar 10 at the crimping end portion can be prevented from occurring or moisture infiltration therebetween. In addition, since the end portion of the sheath pipe 30 provided outside the deformed reinforcing bar 10 is press-bonded in a state in which the expansion part 22 is located, the penetration of the water into the sheath pipe 30 can also be prevented. It is possible to increase the protective effect of the deformed bar 10 by.

As such, when the crimping coupling of the deformed steel 10 and the sleeve member 20 by the crimping device 100 is completed, the outer surface of the end of the sleeve member 20 is threaded to form the threaded portion 11 as illustrated in FIG. 5. do.

Next, a structure for installing the ground anchor 1 in the ground as an example of the anchor according to the present invention manufactured through the above process with reference to FIG. 6 will be described. 6 is an embodiment of a structure for installing a ground anchor according to the present invention, it is also possible to install the ground anchor in the ground in another form.

As described above, the ground anchor 1 in which the sleeve member 20 is press-fitted is installed at the end of the deformed reinforcing bar 10 having the sheath pipe 30 coated therein. When the ground anchor 1 is located in the installation hole 202 as shown in the drawings, the nut 12 is screwed to the threaded portion 11 of the sleeve member 20 so as to be supported by the pressure plate 13. In the drawing, member number 203 is a spacer 203 for maintaining a distance between the installation hole 202 and the ground anchor 1, and member number 204 is a protective cap 204 for protecting the end of the ground anchor (1). In the drawing, the sheath pipe 30 is provided outside of the deformed reinforcing bar 10 only in the free chapter of the ground anchor 1, and the deformed reinforcing bar 10 is exposed in the fixing part. Therefore, the interface between the fixing unit and the free chapter is sealed by sealing it with a waterproof tube 205 in order to prevent moisture from penetrating into the sheath pipe 30. One end of the sheath pipe 30 is pressed and sealed in the sleeve member 20 but the interface between the crimped end of the sleeve member 20 and the sheath pipe 30 as shown in the figure to further double this sealing effect. The waterproof tube 205 may also be wound. A rust preventive agent may be filled in the sheath pipe 30.

On the other hand, in case of ground subsidence when the ground anchor 1 is tensioned when the ground support force is small, the so-called bellows type telescopic tube 206 of the corrugated type is installed on the head of the ground anchor, and the telescopic tube It is also preferred to connect 206 to the sheath pipe 30 using a connecting sheath 207. In addition, a pilot cap 208 may be provided at the end of the fixing part of the ground anchor 1 so that the ground anchor 1 can be easily inserted into the installation hole 202.

As described above, in the anchor of the present invention, the sleeve member 20 is press-bonded to the deformed steel 10 in the anchor of the present invention, and the threaded portion is attached to the sleeve member 20. Therefore, unlike the prior art, it is possible to use the deformed reinforcing bar 10 as a tension member of the lock bolt or the ground anchor without cross-sectional loss.

In addition, since the sleeve member 20 and the deformed reinforcing bar 10 can be press-bonded by a simple method, the manufacturing cost of the lock bolt or the ground anchor is remarkably increased as compared with the conventional art of forming the threaded portion in the circular reinforcing rod by the rolling method. There is a saving effect.

In particular, in the ground anchor 1 which is an example of the anchor of the present invention, the head side end of the sheath pipe 30 for protecting the outside of the deformed reinforcing bar 10 is pressed together with the deformed reinforcing bar 10 to the sleeve member 20. The head side end of the pipe 30 is completely sealed, thereby exerting the effect of being able to fundamentally prevent damage such as corrosion of the deformed steel rebar 10 due to moisture infiltration.

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 (8)

The sleeve member 20 is formed in a rod shape and has a hollow portion 21 in which an end portion of the deformed rebar 10 is inserted, and an end portion is inserted into the hollow portion 21 of the sleeve member 20. Consisting of deformed steel bars 10; The deformed reinforcing bar 10 and the sleeve member 20 are integrally coupled to each other by being pressed in a state where the deformed rebar 10 is positioned in the hollow portion 21 of the sleeve member 20. anchor. The method of claim 1, Anchor, characterized in that the threaded portion (11) is formed on the outer surface of the end of the sleeve member 20 so that the nut can be fastened. The method according to claim 1 or 2, The anchor is a ground anchor (1) consisting of a head, a free ledger and a fixing part; Sheath pipes (30) are provided outside the deformed reinforcing bars (10) in the free ledger; An expansion part 22 having an enlarged hole diameter is formed in the hollow part 21 at one end side of the sleeve member 20; Filler 15 is applied to the outer surface of the deformed reinforcing bar 10 at the position where the deformed reinforcing bar 10 is placed in the expansion part 22 when the deformed bar 10 is inserted into the hollow part 21 of the sleeve member 20. ; When the deformed reinforcing bar 10 is press-fitted with the sleeve member 20, the head end portion of the sheath pipe 30 is positioned at the expansion part 22 of the sleeve member 20 to be pressed and sealed. Anchor characterized by. The method according to claim 1 or 2, And the anchor is a lock bolt. Insert one end of the reinforcing bar 10 in the hollow portion 21 of the sleeve member 20 is formed in a rod shape and the hollow portion 21 is formed in the center is inserted into the end of the reinforcing bar 10 step; And Compressing by passing the sleeve member 20 through a compression device in a state in which the deformed steel 10 is disposed therein, and the deformed steel 10 and the sleeve member 20 are integrally coupled to each other. Anchor manufacturing method, characterized in that to manufacture the anchor. The method of claim 5, Anchor manufacturing, characterized in that it further comprises the step of forming a screw so that the nut can be fastened to the outer surface of the end of the sleeve member 20 after the step of pressing the deformed reinforcing bar 10 and the sleeve member 20 Way. The method according to claim 5 or 6, The anchor is a ground anchor (1) consisting of a head, a free ledger and a fixing part; Inserting the deformed bar (10) into the sheath pipe (30) in the free ledger; An expansion part 22 having an enlarged hole diameter is formed in the hollow part 21 at one end side of the sleeve member 20; When the rebar 10 is inserted into the hollow part 21 of the sleeve member 20, the rebar 10 is applied to the outer surface of the deformed bar 10 in a state where the filler 15 is applied to the outer surface of the deformed bar 10. Inserting the hollow portion 21 and the dilatation portion 22 of the sleeve member 20; In the step of the deformed reinforcing bar 10 is press-bonded with the sleeve member 20, the head end portion of the sheath pipe 30 is pressed in a state in which the expansion part 22 of the sleeve member 20 is positioned. A method of manufacturing an anchor, characterized in that the sheath pipe (30) is also pressed and sealed together by passing through the device (200). The method according to claim 5 or 6, And said anchor is a lock bolt.

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