KR101249129B1 - An anchor-bolt using screw iron - Google Patents

Abstract

PURPOSE: A base anchor bolt using a screw threaded steel bar is provided to obtain shock-resistance by being firmly anchored to a concrete structure by using the screw threaded steel bar and to enable to firmly install a column to the concrete structure, thereby preventing the concrete structure from being collapsed and transformed. CONSTITUTION: A base anchor bolt comprises a steel bar(10), an anchorage device(20), a fastening nut(30), a coil spring(40) for fixing the nut, and a spiral shaped coil spring for fixing the anchorage device. A screw thread is formed in the outer periphery of the steel bar. The steel bar is buried into concrete while one side of the steel bar is extruded to the outside of the concrete. The anchorage device includes a screw thread in the inner periphery and is screw-joined to the other side of the steel bar. The anchorage device is buried into the concrete, thereby installing the steel bar in the concrete structure. The fastening nut fixes a structure to the steel bar by being screw-joined to the structure. The fastening nut is screw-joined to the structure, which is installed in the concrete structure, and fixes the structure to the steel bar. The coil spring for fixing the nut is joined between the screw thread of the steel bar and a screw thread of the fastening nut. The coil spring for fixing the anchorage device is joined between the screw thread of the steel bar and the screw thread of the anchorage device.

Description

Foundation anchor bolt using threaded rebar {AN ANCHOR-BOLT USING SCREW IRON}

The present invention relates to a foundation anchor bolt, and more particularly to a foundation anchor bolt using a threaded reinforcing rod can be secured to secure the pillar while being able to be cut and used to suit the site conditions when installing the pillar in the building It is about.

In general, anchor bolts are used to fix pillars (such as H beams) of concrete structures, or equipment and structures with heavy weights such as machinery, frames, steel, etc. on walls, floors, or ceilings of concrete structures. It is being used to provide a clamping force when installing.

Anchor bolts are used in various areas as bolts connecting the base of a concrete structure or a reinforced concrete structure with a fixed structure such as a steel girders or a base of a steel column or a steel girder of a bridge.

A portion of the length of the anchor bolt is inserted into the concrete structure, the thread is formed in the area protruding from the concrete structure.

The thread forming portion penetrates one side of the fixed object, and the nut is fastened to the penetrated portion so that the fixed object is fixed to the concrete structure.

At this time, the method of inserting the anchor bolt into the concrete structure is a method of fitting the anchor bolt to the hole formed in the concrete structure or buried a part of the anchor bolt in the concrete structure and the other part, that is, the threaded portion is projected after the concrete The method of curing by pouring is applied.

When part of the anchor bolt is completely buried in the concrete structure, iron shrinkage grout material may be used.

Conventionally, various types of anchor bolts have been provided, but the general anchor bolts are designed in consideration of only the aspects for preventing the anchor bolts from leaving the concrete structure while the concrete structure and the fixed object are fixed.

That is, in the related art, only the aspect of maintaining anchorage of the concrete structure and the fixed object by preventing anchor bolts inserted into the concrete structure from being separated to the upper part of the concrete structure has been important.

Meanwhile, in recent years, as the frequency of earthquakes increases, a design for resisting the side reaction force applied to the structure is required.

However, in the related art, only the anchor bolt is prevented from being separated, and there is a problem in that the anchor bolt that can effectively resist such side reaction force is not provided.

More specifically, in the prior art, there are techniques for increasing the binding force between the concrete structure and the anchor bolt, but does not consider the binding force with the nut in the part of fixing the structure. Here, a gap is generated between the anchor bolt and the nut due to the production error of the anchor bolt and the nut, and the nut is shaken due to this gap. Phenomenon occurs. This phenomenon is more severe during an earthquake, and in the event of an earthquake, the nut is shaken out of the anchor bolt and the structure fixed to the anchor bolt eventually collapses in the building.

In recent years, the trend of high-rise and large-scale buildings has become a stricter regulation of earthquake resistance against earthquakes than small buildings, and the design and construction changes accordingly, and anchor bolts are also important for seismic design. As it is a material, a technology for securing seismic resistance is required.

In addition, the anchor bolt has a limit in increasing its strength, so the fracture phenomenon occurs during the earthquake, and structurally, the anchor bolt is separated from the concrete building due to the weak frictional force with the concrete building.

In addition, the anchor bolt made of a conventional round bar is less concrete adhesion than the reinforcing bar, there is also a problem that the crack of the concrete structure occurs during the earthquake can not prevent the crack of the concrete structure.

Patent Publication No. 10-2010-0128632 Patent Registration No. 10-0438077

The present invention is to solve the problems as described above, by using the reinforcing rod reinforced to secure the earthquake resistance by anchoring firmly to the concrete building through the large strength of the reinforcement and the support force against the draw by the screw thread, It is an object of the present invention to provide a basic anchor bolt using threaded reinforcing rods that can be freely cut and used to fit the site conditions, and can stably install columns and the like in concrete buildings.

Foundation anchor bolt using a threaded reinforcement according to the present invention, the thread is formed on the outer peripheral surface, the reinforcing bar is embedded so that the other side protrudes to the outside of the concrete; A fixing unit formed on one side of the reinforcing bar with a larger cross-sectional area than the reinforcing bar and embedded in the concrete to fix the reinforcing bar to the concrete civil building; A tightening nut that protrudes from the concrete as the other side of the reinforcing bar and passes through a structure installed in the concrete civil building to fix the structure to the reinforcing bar; And a spiral nut fixing coil spring coupled to the other circumference of the reinforcing bar, and an inner diameter of the valley of the tightening nut is larger than an outer diameter of a thread of the reinforcing bar, and the nut fixing coil spring has a respective node. It is characterized in that the screw thread of the reinforcing rod is in close contact with the screw thread of the tightening nut by being inserted between the thread of the reinforcing bar and two neighboring threads of the tightening nut.

According to the basic anchor bolt using a threaded reinforcement according to the present invention, by using a high-strength reinforcement is firmly anchored to the concrete civil engineering building, as well as secure the support force against the drawing through the thread formed on the outer peripheral surface as well as columns Various kinds of fixed objects can be installed firmly and securely in civil engineering buildings to prevent the collapse and deformation of civil engineering structures.

And, by cutting the reinforcing bar to the required length in the field of civil construction, the usability is very excellent, and even if a burr is generated in the rebar cutting process, the fastening nut can be firmly fastened to the reinforcing bar. You can prevent them from leaving the building.

Therefore, it is very effectively used in high-rise and large-scale civil engineering buildings, such as to prevent the cracks of concrete civil engineering buildings because it can ensure a large safety against earthquake by maintaining a large adhesion with concrete.

1 is a perspective view of an installation state of the foundation anchor bolt using a threaded rebar according to the present invention.
Figure 2 is another illustration of the coil spring applied to the foundation anchor bolt using a threaded reinforcement according to the present invention.
Figure 3 is an exploded perspective view of the foundation anchor bolt using a threaded rebar according to the present invention.
Figure 4 is an exploded front view of the foundation anchor bolt using a threaded rod according to the present invention.
5 is a cross-sectional view of an installation state of the foundation anchor bolt using a threaded rebar according to the present invention.

As shown in Figure 1 and Figure 2, the foundation anchor bolt 100 using a threaded reinforcement according to the present invention, including a civil engineering building 200 made of concrete (buildings, civil engineering structures, roads, etc. , Hereinafter, abbreviated as 'architecture' and used to install a pillar 300 in the building 200. The pillar 300 is only an example selected for convenience of description from the field to which the present invention is applied.

As shown in Figures 1 to 4, the basic anchor bolt 100 using a threaded reinforcement, the anchoring rod 20 for fixing and fixing the reinforcing bar 10, the reinforcing bar 10 with a thread formed on the outer peripheral surface inside the building 200 , Consists of a tightening nut 30 for coupling the reinforcing bar 10 and the pillar 300.

Reinforcing bar 10 is a product processed to form a thread on the outer circumferential surface, that is, the thread 11 and the valley 12 is formed spirally.

The fixing unit 20 is formed in a larger cross-sectional area than the reinforcing bar 10 so that the reinforcing bar 10 does not leave the building 200, and may be fixed to the reinforcing bar 10 by welding or the like as a flat plate, or fixing the fixing unit described below. It may be screwed through the coil spring for, it will be described in detail below.

Reinforcing bar 10 is embedded so that a portion of the upper side of Fig. 2 protrudes outside the building 200.

Tightening nut 30 is screwed to the reinforcing bar 10 protruding from the building 200 between the base plate 310 (fixed by welding or the like at the bottom of the pillar 300, the rebar insertion hole is provided) The pillar 300 is fixed to the building 200 through the plate 310.

The tightening nut 30 has one or more injection holes 33 formed therein so as to double the binding force by filling a space between the bars 10 in addition to the fastening force with the reinforcing bar 10.

The tightening nut 30 can be any design that is fastened to the reinforcing bar 10 and an outward flange 34 can be formed at the bottom, for example, as shown in the figure.

The reinforcing bar 10 is freely cut and used according to field conditions, and even if a burr (including not only a burr but also an irregular outer diameter of the reinforcing bar 10) is generated at the cutting part of the reinforcing bar 10 due to the cutting nut. 30 is configured to be screwed. That is, the inner diameter of the bone of the tightening nut 30 is larger than the outer diameter of the thread 11 of the reinforcing bar 10, and a burr is formed at the cut portion of the reinforcing bar 10 so that the tightening nut 30 may be increased by the burr. By tightening the inner diameter of the bone) can tighten the tightening nut 30 to the reinforcing bar (10).

On the other hand, although the burr is configured to fasten the tightening nut 30 to the reinforcing bar 10, but there will be a space between the reinforcing bar 10 and the spiral portion (thread and valley) of the tightening nut 30, due to this space Since the reinforcing bar 10 and the tightening nut 30 will not be firmly coupled, the coil spring 40 for fixing the nut is applied to solve the problem.

The nut fixing coil spring 40 is inserted between the thread 11 of the reinforcing bar 10 and two neighboring threads of the tightening nut 30 so that the thread 11 of the reinforcing bar 10 is driven by its elastic force. ) Is fixed to the thread of the tightening nut (30).

The coil spring 40 for fixing the nut should allow the reinforcing bar 10 to be screwed to the fastening nut 30 and between the thread 11 of the reinforcing bar 10 and the thread 31 of the fastening nut 30 ( Bone gap) is possible, provided that it has elastic force to fill the gap between the thread 11 of the reinforcing rod 10 and the thread 31 of the tightening nut 30, so that the elastic force is Spirally formed coil springs with spring steel in place.

Referring to the size relationship between the thread 11 of the reinforcing rod 10 and the coil spring 40 for fixing the nut and the thread 31 and the valley 32 of the tightening nut 30, the coil spring 40 for fixing the nut The outer diameter is larger than the outer diameter of the thread 11 of the reinforcing bar 10, the inner diameter of the valley 32 of the tightening nut 30 should be larger than the outer diameter of the coil spring 40 for fixing the nut. In addition, the cross-sectional area of the coil spring 40 for fixing the nut is formed to a size capable of filling and supporting between the thread 11 of the reinforcing bar 10 and the thread 31 of the tightening nut 30. Thus, only one coil fixing coil 40 may be used but two or more may be used to overlap each other.

When the outer diameter of the nut fixing coil spring 40 is larger than the outer diameter of the thread 11 of the reinforcing bar 10, the nut fixing coil spring 40 is formed with the thread 11 of the reinforcing bar 10 and the tightening nut 30. Interposed between the threads 31 of) and firmly tighten the reinforcing bar 10 and the tightening nut 30 by crimping the thread 11 of the reinforcing bar 10 and the thread 31 of the tightening nut 30 by its own elastic force. Fix it.

The coil spring 40 for fixing the nut may be used by winding the periphery of the reinforcing bar 10 as a single piece, but may be fixed to the periphery of the reinforcing bar 10 by welding, or by welding within the tightening nut 30. It may be.

As shown in FIG. 5, the coil spring 40 for fixing the nut has a diameter equal to or smaller than the diameter of the first spiral portion 41 and the valley 12 of the reinforcing bar 10 smaller than the diameter of the valley 12 of the reinforcing bar 10. The second spiral portion 42 and the third spiral portion 43 having an outer diameter larger than the inner diameter of the valleys 32 of the tightening nut 30 are formed. The first spiral portion 41 may be screwed to the rebar 10 through a tool or the like and firmly supported by the rebar 10, and the second spiral portion 42 may be fastened to the reinforcing bar 10. The spiral portion 43 is firmly supported by the inner circumferential surface of the tightening nut 30.

Accordingly, the nut fixing coil spring 40 may have all of the first to third spiral parts 41, 42, and 43, but the two combinations (first, second spiral parts 41, 42, or the second) may be provided. , The three helixes 42 and 43 and the first and third helixes 41 and 43].

As described above, the fixing unit 20 may be fixed by welding to the reinforcing bar 10 as a plate, and may be installed through the coil spring 50 for fixing the fixing unit to the reinforcing bar 10 as a nut having a screw thread formed on an inner circumferential surface thereof. It may be. Here, the outward flange 21 and the injection hole 22 may be formed to further increase the fixing force.

The fixing fixture coil spring 50 has the same structure and function as the nut fixing coil spring 40.

The construction method of the column using the foundation anchor bolt using the threaded rebar which concerns on this invention is as follows.

1. Fixture and rebar installation.

Forming the formwork for the concrete casting of the building 200, before installing the concrete is installed the reinforcing bar 10 is coupled to the anchorage 20 inside the formwork.

Of course, a portion of the reinforcing bar 10 is installed to protrude to the outside of the formwork so as to fix the base plate 310 of the pillar 300 to the reinforcing bar 10.

2. Concrete pouring.

Constructs the building 200 by pouring concrete into the formwork. When the concrete is cured, the reinforcing bar 10 is firmly fixed in the building 200 through the fixing unit 20. Reinforcing bar 10 has a thread formed on the outer circumferential surface will be placed between the bones, so that the support force against the drawing occurs.

3. Pillar installation.

The head 300 of the reinforcing bar 10 (part protruding from the building 200) is fitted to the reinforcing bar insertion hole of the base plate 310 coupled to the bottom of the column 300.

A plurality of reinforcing bars 10 will be applied to the base plate 310 to secure the installation of the column 300, and the fastening nut 30 is fastened to a portion coupled to the reinforcing hole of the base plate 310 to support the column 300. Install).

The head of the reinforcing rod 10 is pre-coupled to the nut fixing coil spring 40, and the tightening nut 30 is screwed along the thread 11 of the reinforcing rod 10 and the winding of the nut fixing coil spring 40. Is fastened. The tightening nut 30 is larger than the outer diameter of the reinforcing bar 10 and is particularly sized to accommodate the burr of the reinforcing bar 10, so that the fastening nut 30 is screwed to the reinforcing bar 10 even if there is a burr at the end of the reinforcing bar 10. .

On the other hand, when tightening the tightening nut 30, the coil fixing coil spring 40 is firmly fixed to the reinforcing bar 10 and the tightening nut 30 while elastically deformed by the cross-sectional area and size.

After the fastening of the tightening nut 30 is completed, the tightening nut 30 and the reinforcing bar 10 may be more firmly connected by injecting a filling material such as concrete through the injection hole 33.

In the specification in which the fixing unit 20 is configured in the same manner as the fastening nut 30, the fixing unit 20 may be screwed to the reinforcing bar 10, or only the fixing unit 20 may be installed to screw the reinforcing bar 10. The concrete can be poured by connecting the packing material to the fixing unit 20, and after curing the concrete, the packing material is removed, and the reinforcing bar 10 is installed in the space occupied by the packing material to fix the fixing unit 20. have.

In addition, it is possible to separate the reinforcing bar 10 and the fixing unit 20 to separate the reinforcing bar 10 from the fixing unit 20, after completing the repair or replacement of the column 300, the reinforcing bar 10 to the fixing unit 20 By screwing in, the pillar 300 can be repaired or replaced.

10: rebar, 20: anchorage
30: tightening nut, 40: coil spring for fixing the nut
50: coil spring for fixing the anchorage,

Claims (3)

A thread is formed on the outer circumferential surface and the reinforcing bar 10 is embedded so that the other side protrudes to the outside of the concrete;
A screw thread formed on an inner circumferential surface thereof and screwed to one side of the reinforcing bar and embedded in the concrete to fix the reinforcing bar to the concrete civil building;
A tightening nut (30) screwed to a portion penetrating from the concrete as the other side of the reinforcing bar and penetrating the structure installed in the civil engineering structure of the concrete and fixing the structure to the reinforcing bar;
A spiral nut fixing coil spring (40) coupled between the thread of the rebar and the thread of the tightening nut;
Spiral anchorage fixing coil spring 50 is coupled between the thread of the reinforcing rod and the thread of the anchorage,
The inner diameter of the bone of the anchorage and the tightening nut is formed larger than the outer diameter of the thread of the rebar,
The coil spring for fixing the nut or the coil spring for fixing the anchorage may include a first spiral portion smaller than the diameter of the rib of the rebar, a second spiral portion equal to the diameter of the rib of the rebar, and an inner diameter of the bone of the tightening nut or the anchorage. Two or more of the third spiral parts having a larger outer diameter are formed, and each node is inserted between the threads of the rebar and two adjacent threads of the anchorage and the fastening nut, thereby reinforcing the threads of the rebar by its own elastic force. Foundation anchor bolts using threaded reinforcement, characterized in that the fixing in close contact with the screw thread of the anchoring nut and the tightening nut. delete delete

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