KR100625534B1 - Anchor bolt assembly - Google Patents

Abstract

The present invention is an anchor bolt assembly for fixing the bolt by fixing the wedge to the anchor bolt hole in a non-hit manner, the bolt is formed along the longitudinal direction and one end of the bolt is formed with an extension that the outer periphery becomes larger toward the lower side, and some outer surface of the bolt A wedge formed of a plurality of pieces each having a ridge on its outer surface and formed on a periphery thereof, a hollow tube inserted into the bolt to press the wedge to press the wedge, and a screw portion of the bolt It is configured to include a fastening nut to fasten the bolt by compressing the hollow tube tightly fixed to the anchor bolt hole by compressing the hollow tube. Since the frictional force between the ridge formed on the outer surface of the wedge and the anchor bolt hole is much larger than the frictional force between the inner surface of the wedge and the outer surface of the expansion part of the bolt, the wedge is anchored when an external impact (vibration) is applied to the bolt in the vertical direction. It is more tightly fixed than spaced from the inner side of the bolt hole.

Description

Anchor Bolt Assembly

1 is an exploded perspective view showing the configuration of the anchor bolt according to the prior art,

Figure 2 is a schematic diagram showing a state in which the anchor bolt shown in Figure 1 fixed to the anchor bolt hole,

Figure 3 is an exploded perspective view showing the configuration of the anchor bolt assembly according to the first embodiment of the present invention,

4 is a cross-sectional view and a partial enlarged view of the wedge shown in FIG. 3 taken along line A-A,

5 is a schematic view showing a state in which the anchor bolt assembly shown in Figure 3 fixed to the anchor bolt hole,

Figure 6 is an exploded perspective view showing the configuration of the anchor bolt assembly according to a second embodiment of the present invention,

7 is a schematic view showing a state in which the anchor bolt assembly shown in Figure 6 fixed to the anchor bolt hole,

8 is an exploded perspective view showing the configuration of the anchor bolt assembly according to a third embodiment of the present invention,

9 is a schematic view showing a state in which the anchor bolt assembly shown in Figure 8 fixed to the anchor bolt hole.

  ♠ Explanation of symbols on the main parts of the drawing ♠

200: anchor bolt assembly 210: bolt

211 threaded portion 212 extension portion

220: wedge 221: piece

222: ridge 230: hollow tube

240: tightening nut

The present invention relates to an anchor bolt assembly that is fixed to the concrete floor or wall surface to fix the structure, and more specifically to the anchor bolt assembly for fixing the anchor bolt by fixing the wedge to the anchor bolt hole in a non-hit manner. It is about.

Anchor bolts are fixed to anchor bolt holes perforated on concrete floors or walls and used to secure the structure. The anchor bolt is generally configured as shown in Figure 1 is fixed to the anchor bolt hole in the form as shown in FIG. 1 is an exploded perspective view showing the configuration of the anchor bolt according to the prior art, Figure 2 is a schematic diagram showing a state in which the anchor bolt shown in Figure 1 fixed to the anchor bolt hole.

As shown in FIG. 1, the anchor bolt 100 of the prior art has a bolt portion 110 having a threaded portion 111 formed on one side thereof and an extension 112 formed on the other side thereof with a larger outer periphery toward the lower side thereof. And a sleeve 120 inserted into the bolt 110 so that a plurality of cutouts 121 are formed at one side so as to be opened in correspondence with the extension part 112, and the threaded portion 111 of the bolt 110. It consists of a fastening nut 130 for fixing the bolt 110 to the anchor bolt hole. Here, the sleeve 120 is formed such that its inner diameter is smaller than the maximum outer diameter of the extension 112.

Therefore, as shown in Figure 2, after drilling the anchor bolt hole (H) in the base concrete (C), and then inserted the bolt 110 so that the end of the threaded portion 111 to the outside bolt (110) Insert the sleeve 120 to the outer circumference of the fastening nut 130 is coupled to the screw 111 to tighten. Then, the bolt 110 is linearly moved to the upper portion of the base concrete (C) and its extension 112 enters the inside of the sleeve 120, and the sleeve 120 is cut off by the extension 112. Cracked apart based on (121) is fixed to the anchor bolt hole (H) is fixed to the base concrete (C).

However, the anchor bolt 100 is not only formed so that the surface of the sleeve 120 is smooth, but simply because the incision 121 is opened and fixed, when a large load is continuously and repeatedly acting, the foundation concrete (C) There is a problem to deviate from.

In addition, the anchor bolt 100 has a disadvantage in that a lot of force is required because the anchor bolt hole (H) is tightly fixed by opening the incision portion 121 through the tightening nut 130.

Thus, Korean Utility Model Registration No. 228566 has a plurality of protrusions formed on the surface instead of the sleeve, and one incision is formed on one side, and the anchor bolt for concrete configured to be fixed in close contact with the anchor bolt hole by hitting the wedge composed of the inclined inner peripheral surface with a pipe punch. Known for.

And the Republic of Korea Utility Model Registration No. 324147 is known for the anchor bolt configured to improve its own strength by forming a plurality of locking jaws on the surface of the sleeve and to prevent the anchor bolt from leaving the concrete.

In addition, Korean Patent Publication No. 2004-20854 uses a wedge and a hollow tube having a plurality of protrusions formed at one end instead of a sleeve and a plurality of cutouts formed at the other end thereof, and tightening the fastening nut to cut the wedge into the anchor bolt hole. It is known for anchor bolts configured to be tightly fixed to the bolts.

However, since the anchor bolt of the Utility Model Registration No. 228566 fixes the anchor bolt to the anchor bolt hole by hitting the wedge with a pipe punch, there is a possibility that the inner surface of the anchor bolt hole that is in close contact with the wedge is damaged due to the hit. In addition, since the inner circumferential surface of the wedge is forcibly fixed to the extension part of the bolt while the incision part of the wedge is opened according to the strike, the wedge has the property of always leaving the extension part of the bolt and returning to its original position. Therefore, when fixing the structure to the anchor bolt, when the external impact in the vertical direction is applied to the anchor bolt, the return force of the wedge to return to close contact with the wedge by moving away from the external impact force and the extension of the bolt It is applied to the inner side of the anchor bolt hole. Therefore, the hitting the wedge becomes vulnerable or partially damaged part is broken sequentially, resulting in the problem that the anchor bolt is separated from the hole. In addition, this technique has a disadvantage in that the workability is poor because the wedge is fixed by hitting the pipe punch.

In addition, the anchor bolts of Utility Model Registration No. 324147 and Published Patent Publication No. 2004-20854 can solve to some extent the problem of being separated from the anchor bolt hole by frictional force due to a plurality of locking jaws or projections. However, the anchor bolt 100 shown in Figures 1 and 2 through the tightening nut tightening the sleeve or wedge incision to secure the anchor bolt hole tightly because it requires a lot of force and precise management of the force There is a disadvantage in poor workability, such as need.

Therefore, the present invention has been made in order to solve the problems of the prior art as described above, while fixing the wedge to the anchor bolt hole in a non-hit method, ridges and anchors formed on the outer surface of the wedge consisting of a plurality of pieces divided from each other It is an object of the present invention to provide an anchor bolt assembly which secures the bolt to the anchor bolt hole conveniently and firmly by configuring the friction force between the bolt holes to be much larger than the friction force between the inner surface of the wedge and the outer surface of the extension part of the bolt.

The present invention is an anchor bolt assembly that is fixed to the concrete floor or wall to fix the structure, the bolt is formed along the longitudinal direction and one end of the bolt is formed with an extension that the outer periphery becomes larger toward the lower side, and a part of the outer surface of the bolt A wedge composed of a plurality of pieces each having a friction force increasing means on the outer surface, which may be opened in correspondence with the expansion portion, a hollow tube inserted into the bolt to press the wedge to be positioned above the wedge, and a screw portion of the bolt It is fastened to the anchor by tightening the wedge close to the anchor bolt hole by fastening the hollow tube includes a fastening nut for fixing the bolt.

As another aspect of the present invention, one end of the thread is formed along the longitudinal direction and the other end of the extended portion extending in the outer direction toward the lower side of the bolt continuously formed in multiple stages in the longitudinal direction, the multi-stage expansion is disposed around the multi-stage expansion And a wedge composed of a plurality of pieces each having a frictional force increasing means on the outer surface, and fastened to the threaded portion of the bolt to compress the wedge to fix the wedge tightly to the anchor bolt hole to fix the bolt. Includes fastening nut.

In another aspect, the present invention, one end is formed with a thread along the longitudinal direction, the other end is extended to the outer periphery increases toward the lower side, a screw portion protruding to the end of the expansion portion, and the screw can be fastened and detached to the lower side Wedges formed of a bolt having a shrinking portion that gradually decreases in its outer circumference, and a plurality of pieces disposed around the expansion portion and the contracting portion to be opened in correspondence with the expansion portion and the contracting portion, and each having a frictional force increasing means on the outer surface. It includes, the outer surface of the contraction portion and the inner surface of the corresponding wedge corresponding to each other is formed a rotation limiting member for limiting the rotation of the contraction portion.

As the frictional force increasing means of the present invention, it is preferable to form a ridge formed on the outer surface of the wedge in the circumferential direction and arranged in a plurality in the height direction thereof. Meanwhile, the ridge may have an isosceles triangle shape or a right triangle shape.

The wedge of the present invention may further include elastic means disposed along the circumferential surface of the pieces arranged to connect the plurality of pieces.

And the outer surface and the inner surface of the wedge of the extension of the present invention can be formed with a plurality of protrusions or guide grooves corresponding thereto at equal intervals along the circumferential direction in the height direction.

In the following, with reference to the accompanying drawings, preferred embodiments of the anchor bolt assembly according to the present invention will be described in detail.

<First Embodiment>

3 is an exploded perspective view showing the configuration of the anchor bolt assembly according to the first embodiment of the present invention, Figure 4 is a cross-sectional view and a partially enlarged view of the wedge shown in Figure 3 taken along the line AA, Figure 5 3 is a schematic view showing a state in which the anchor bolt assembly shown in Figure 3 is fixed to the anchor bolt hole.

As shown in Figures 3 to 5, the anchor bolt assembly 200 according to this embodiment is a screw portion 211 is formed in a predetermined section along the longitudinal direction and the expansion portion 212, the outer periphery becomes larger at one end downward Is formed in the bolt 210, the wedge 220 is composed of a plurality of pieces 221 to be inserted in the bolt 210 to correspond to the expansion portion 212, and the wedge 220 is inserted into the anchor bolt hole Fastening nut 240 for fastening the wedge 220 to the anchor bolt hole (H) by fastening the hollow tube 230, and the screw portion 211 of the bolt 210 to compress the hollow tube 230 to press the) It consists of.

The bolt 210 of this embodiment is configured in the same way as a bolt for a conventional anchor bolt. However, the bolt 210 may be configured by further forming one threaded portion in a conventional bolt for anchor bolts. In this configuration, one threaded portion is formed near the center in the longitudinal direction of the bolt 210 and used to fasten the fastening nut 240, and the other threaded portion is formed at one end of the bolt 210 to fix the structure. It can be used to

The wedge 220 of this embodiment is composed of a plurality of pieces 221 divided to have a cylindrical shape having a predetermined diameter and height when arranged in contact with each other. At this time, the outer diameter of the wedge 220 is the same, but the inner diameter is formed in a form that becomes smaller or larger toward one end from the other end. That is, the inner surface of the piece 221 is inclined toward one end from the other end. At this time, the minimum inner diameter of the wedge 220 has a size that can be fitted to the bolt 210, the outer diameter has a size that can be inserted into the anchor bolt hole (H). In addition, the outer surface of the wedge 220 is formed with a friction force increasing means for increasing the friction force. That is, the friction force increasing means is formed on the outer surface of each piece piece 221.

In this embodiment, the friction force increasing means is formed in the circumferential direction on the outer surface of the wedge 220 and is composed of ridges 222 which are arranged in plural in the height direction thereof. At this time, the ridge 222 is configured such that the side surface of the piece 221 has an isosceles triangle shape. In addition, the ridge 222 may be configured such that the side of the piece 221 has a right triangle perpendicular to the outer surface of the wedge 220 and the lower side is inclined relative to the height direction. In addition, the frictional force increasing means of this embodiment may be configured in various forms including an uneven portion projecting on the outer surface of the wedge 220.

And the wedge 220 of this embodiment is composed of a plurality of pieces 221 to form a cylindrical shape when arranged in contact with each other, or separate the circumferential surface in a state in which a plurality of pieces 221 are arranged in a cylindrical form It can be configured by connecting the elastic means. At this time, the elastic means may be composed of a rubber or a spring that contracts and expands due to an external force. The wedge 220 of this embodiment is composed of four quarter pieces 221 divided into four, but may be configured by dividing more or less. In addition, the wedges 220 may be configured to be equally divided into a plurality of pieces without being evenly divided.

The wedge 220 of this embodiment has a greater frictional force on the outer surface (ridge portion 222) in contact with the inner surface of the concrete hole H than the frictional force on its inner surface in contact with the expansion portion 212 of the bolt 210. It is configured to be.

Hollow pipe 230 of this embodiment is to be inserted into the anchor bolt hole (H) to serve to press the wedge 220, to be inserted into the anchor bolt hole (H) and the inner diameter that can be fitted to the bolt (210) Has an outer diameter. In addition, the hollow tube 230 has a length corresponding to the depth of the anchor bolt hole (H) in consideration of the height of the wedge (220).

The fastening nut 240 of this embodiment is fastened to the threaded portion 211 of the bolt 210 at the outside of the anchor bolt hole (H) to compress the hollow tube 230 by tightening, thereby expanding the bolt 210 Part 212 is in close contact with each piece piece 221 constituting the wedge 220 serves to secure to the inner surface of the anchor bolt hole (H).

In addition, the anchor bolt assembly 200 of this embodiment is formed on the outer surface of the expansion portion 212 of the bolt 210 and the inner surface of the wedge 220, the protrusion or the corresponding guide groove in the height direction, such as in the circumferential direction It may be formed by forming a plurality of intervals. By such a configuration, the wedge 220 can be placed and fixed to the extension 212 of the bolt 210 more conveniently and stably.

Below we will look at the process of fixing the anchor bolt assembly of this embodiment configured as described above anchor bolt holes.

As shown in FIGS. 3 to 5, first, four pieces 221 are arranged in contact with the outer surface of the bolt 100 to form a cylindrical wedge 220 that surrounds the outer surface of the bolt 210. At this time, the worker should be gripped in a state where the wedge 220 is placed on the outer surface of the bolt 210 so that the shape of the wedge 220 is not disturbed. Then, in this state, the bolt 210 and the wedge 220 are inserted into the anchor bolt hole H drilled in the foundation concrete (C). Then, the end of the extension portion 212 of the bolt 210 is in contact with the lower end of the anchor bolt hole (H), a portion of the screw portion 211 is located in the anchor bolt hole (H) and the remaining portion is located on the ground.

After inserting the hollow tube 230 into the bolt 210 disposed as described above, the fastening nut 240 is coupled to the screw portion 211 of the bolt 210 to be tightened. Then, the bolt 210 is linearly moved upward and its extension 212 enters the inside of the wedge 220. At this time, the wedge 220 is restricted by the movement to the upper portion by the hollow tube 230 in close contact thereon. Accordingly, the four pieces 221 constituting the wedge 220 are gradually moved toward the inner side surface of the anchor bolt hole H by the expansion portion 212, so that each ridge portion 222 formed on the outer surface thereof is formed. The wedge action occurs in close contact with the inner surface of the anchor bolt hole (H). Once the wedge action occurs, the vertical force (force toward the inner surface of the anchor bolt hole) acting on the wedge 220 increases as the pulling force applied to the bolt 210 increases. Therefore, the frictional force is also increased in proportion, so that the bolt 210 is never released from the anchor bolt hole (H) until the bolt or concrete breaks down.

Second Embodiment

Figure 6 is an exploded perspective view showing the configuration of the anchor bolt assembly according to a second embodiment of the present invention, Figure 7 is a schematic diagram showing a state in which the anchor bolt assembly shown in Figure 6 fixed to the anchor bolt holes.

As shown in Figure 6 and 7, the anchor bolt assembly 300 according to this embodiment is formed with a screw portion 311 in a predetermined section along the longitudinal direction at one end and the expansion portion (the outer periphery becomes larger toward the lower end) A plurality of bolts 312 are formed in two stages in a row in a longitudinal direction, and a plurality of bolts 310 are arranged around the two-stage extension 312 of the bolt 310 so as to be opened in correspondence with the two-stage extension 312. Wedge 320 consisting of two pieces 321, and fastening nut for fastening the wedge 320 to the anchor bolt hole (H) by compressing the upper end of the wedge 320 is fastened to the screw portion 311 of the bolt 310 330.

The wedge 320 of this embodiment is composed of a plurality of pieces 321 divided to have a cylindrical shape having a diameter and a height corresponding to the anchor bolt hole (H) when arranged in contact with each other. At this time, the outer diameter of the wedge 320 is the same, but the inner diameter is formed in such a shape that gradually increases toward the other end at one end and then decreases to its size in the initial state and then becomes larger again. That is, the inner surface of the piece 321 is inclined in two stages from one end toward the other end. In addition, the outer surface of the wedge 320 is formed with a friction force increasing means for increasing the friction force. That is, on the outer surface of each piece piece 321, the same friction force increasing means formed in the piece piece 221 as described in the first embodiment is formed. In this embodiment, the friction force increasing means is formed in the circumferential direction on the outer surface of the wedge 320 and is composed of a plurality of ridges 322 arranged in the height direction thereof.

The anchor bolt assembly 300 of this embodiment configured as described above is firmly fixed to the anchor bolt hole H by the same manner and principle as described in the first embodiment.

Third Embodiment

8 is an exploded perspective view showing the configuration of the anchor bolt assembly according to a third embodiment of the present invention, Figure 9 is a schematic diagram showing a state in which the anchor bolt assembly shown in Figure 8 fixed to the anchor bolt holes.

As shown in Figures 8 and 9, the anchor bolt assembly 400 according to this embodiment is one end is formed with a screw portion 411 in a predetermined section along the longitudinal direction, the other end of the expansion portion is increased toward the lower side 412, a bolt 410 protruding from the end of the expansion part 412, and a bolt 410 formed with a contraction part 414 fastened to the screw part 413 and having a smaller outer periphery toward the lower side thereof, and a bolt 410. And a wedge 420 formed of a plurality of pieces 421 arranged around the expansion part 412 and the contraction part 414 so as to be opened in correspondence with the expansion part 412 and the contraction part 414. do.

The bolt 410 of this embodiment is configured in such a way that the extension portion 412 and the contraction portion 414 are symmetrical with respect to the interface, and the thread portion 414 is formed at the end of the extension portion 412. It is configured to be tightened and loosened at 413. And the outer surface of the contraction portion 414 is engaged with a portion of the wedge 420 is formed a rotation limiting member to limit the rotation. Accordingly, in this embodiment, the wedge 420 is firmly fixed to the anchor bolt hole H by turning the bolt 410 to gradually increase the distance between the expansion part 412 and the contraction part 414.

The wedge 420 of this embodiment is composed of a plurality of pieces 421 divided to have a cylindrical shape having a diameter and a height corresponding to the anchor bolt hole (H) when arranged in contact with each other. At this time, the outer diameter of the wedge 420 is the same, but the inner diameter is formed in a form that gradually increases toward the other end from one end and gradually decreases to the initial state at a certain point. And the lower inner surface of the wedge 420 is engaged with the rotation limiting member formed on the outer surface of the contraction portion 414 is formed a rotation limiting member for limiting the rotation of the contraction portion 414. The rotation limiting member may be formed of a plurality of protrusions or guide grooves corresponding thereto formed at equal intervals along the circumferential direction in the height direction.

In addition, the outer surface of the wedge 420 is formed with a friction force increasing means for increasing the friction force. That is, on the outer surface of each piece piece 421, the same friction force increasing means as the friction force increasing means formed on the piece piece 221 described in the first embodiment is formed. In this embodiment, the friction force increasing means is formed in the circumferential direction on the outer surface of the wedge 420 and is composed of a ridge 422 which is formed in plural in the height direction thereof.

The anchor bolt assembly 400 of this embodiment configured as described above has the wedge 420 according to the same principle as the first embodiment by turning the bolt 410 to gradually increase the distance between the expansion portion 412 and the contraction portion 414. ) Is firmly fixed to the anchor bolt hole (H).

The anchor bolt assembly according to the present invention is fixed to the anchor bolt hole by tightening the fastening nut without hitting the wedge, but because it uses a wedge composed of a plurality of pieces divided from each other, by opening the wedge close to the anchor bolt hole Excellent workability such as not requiring much force to fix.

In particular, since the frictional force between the ridge formed on the outer surface of the wedge and the anchor bolt hole is much larger than the frictional force between the inner surface of the wedge and the outer surface of the expansion part of the bolt, when the bolt is subjected to an external impact (vibration) in the vertical direction, the wedge Is more tightly fixed than is spaced apart from the inner side of the anchor bolt hole.

The technical details of the anchor bolt assembly of the present invention have been described with reference to the accompanying drawings, which illustrate exemplary embodiments of the present invention and do not limit the present invention.

It is also apparent that any person skilled in the art can make various modifications and imitations within the scope of the appended claims without departing from the scope of the technical idea of the present invention.

Claims (8)

In the anchor bolt assembly to be fixed to the concrete floor or wall to fix the structure, A bolt is formed along the longitudinal direction and one end of the bolt is formed with an extension portion whose outer periphery increases toward the lower side, A wedge which is arranged around a part of the outer surface of the bolt and is formed in correspondence with the expansion part and is composed of a plurality of pieces each having a frictional force increasing means on the outer surface, A hollow tube inserted into the bolt to press the wedge so as to be positioned above the wedge, and And a fastening nut for fastening the wedge to the anchor bolt hole by fastening the hollow tube by being fastened to the screw part of the bolt to fix the bolt. In the anchor bolt assembly to be fixed to the concrete floor or wall to fix the structure, One end is formed with a threaded portion along the longitudinal direction, the other end of the bolt is formed in a multi-stage continuous extension in the longitudinal direction the outer periphery increases toward the bottom A wedge disposed around the multi-stage extension and formed to correspond to the multi-stage extension, and composed of a plurality of pieces each having a frictional force increasing means on an outer surface thereof; Anchor bolt assembly comprising a fastening nut for fastening the wedge close to the anchor bolt hole by fastening the wedge is fastened to the screw portion of the bolt to fix the bolt. In the anchor bolt assembly to be fixed to the concrete floor or wall to fix the structure, One end is formed with a threaded portion along the longitudinal direction, the other end is an expansion portion that the outer periphery increases toward the lower side, a screw portion protruding at the end of the expansion portion, and the contracting portion that can be fastened and detached to the screw portion and the outer periphery becomes smaller toward the lower side Formed bolts, A wedge disposed around the expansion part and the contraction part and formed to correspond to the expansion part and the contraction part, the wedge including a plurality of pieces each having a frictional force increasing means on an outer surface thereof, The outer bolt and the inner surface of the corresponding wedge corresponding to the contraction of the anchor bolt assembly, characterized in that each rotation limiting member for limiting the rotation of the contraction is formed. The method according to any one of claims 1 to 3, The friction force increasing means is an anchor bolt assembly, characterized in that formed in the circumferential direction on the outer surface of the wedge and a plurality of ridges formed in the height direction. The method according to claim 4, The ridge is anchor bolt assembly, characterized in that the side of the piece has an isosceles triangle shape. The method according to claim 4, The ridge portion anchor bolt assembly, characterized in that the side of the piece has a right triangle shape. The method according to claim 1, The wedge is an anchor bolt assembly, characterized in that it further comprises elastic means disposed along the circumferential surface of the pieces arranged to connect the plurality of pieces. The method according to claim 1, Anchor bolt assembly, characterized in that the outer surface and the inner surface of the wedge is formed with a plurality of protrusions or guide grooves corresponding thereto at equal intervals along the circumferential direction in the height direction.

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