KR20130130279A - Anchor bolt alignment module - Google Patents

Abstract

The present invention discloses an anchor bolt aligning unit which aligns anchor bolts coupled to a base plate supporting a vertical beam and aligns the arrangement of the anchor bolts installed at different positions. The anchor bolt aligning unit comprises: an upper frame formed into a rectangular plate of which each vertex has a supporting part having a through-hole gripping the anchor bolt to be vertically installed, wherein the plate has a first through-hole separated from the vertex and a second through-hole formed between the vertex and the first through-hole; a lower frame having an identical shape to the upper frame and separated below the upper frame; vertical columns separated at a distance, corresponding to the respective vertices of the upper and the lower frame; a guide member installed to penetrate the first through-holes of the upper and the lower frame, and aligning the position of an auxiliary reinforcing bar installed between the vertical column and the same; and a height control member installed to penetrate the second through-hole of the upper frame, having an end portion in contact with the upper side of the auxiliary reinforcing bar, and controlling the height of the vertex of the anchor bolt aligning unit.

Description

Anchor Bolt Alignment Unit {ANCHOR BOLT ALIGNMENT MODULE}

The present invention relates to an anchor bolt alignment device, in particular, anchor bolt alignment device having the ability to align the anchor bolts engaging with the base plate for supporting the vertical beam and align the arrangement of the anchor bolts installed in different positions It is about.

The building structure includes a vertical beam structure to which the load of the upper structure applied in the vertical direction is applied, and the vertical beam structure transmits and distributes the load of the upper structure to the ground and the like to support the upper structure.

In the vertical beam structure, a vertical beam such as an H beam is constructed and the verticality of the vertical beam must be satisfied. If the verticality of the vertical beam structure is not satisfied, the function of supporting, transmitting, and distributing the upper load cannot be sufficiently expected, so that the vertical beam structure may collapse, or some pier part lifting or continuous section of the structure may not be expected. There is a risk of distortion of the structure.

Vertical beam structures are typically installed on reinforced concrete reinforced with soft ground to support loads and satisfy verticality.

More specifically, reinforced concrete is poured in order to reinforce the soft ground after digging in the area where the vertical beam structure is to be constructed. It is installed partially buried so as to protrude a certain height. Then, the base plate is coupled to the plurality of anchor bolts constituting the set and the base plate is fixed on the reinforced concrete as the nut is coupled to the male screw of the anchor bolt. A vertical beam such as an H beam is installed on the base plate installed as described above by a method such as bolting through welding or a separate coupling means.

As described above, in the process of constructing the vertical beam structure, it is required to install the anchor bolts of the set to maintain the vertical state, and each anchor bolt of the set is required to be aligned in the designed position.

If the anchor bolts are not installed vertically, the level of the base plate assembled with the anchor bolt set on the reinforced concrete is not guaranteed, and as a result, the verticality of the vertical beam installed on the top may not be guaranteed. have.

In addition, if the anchor bolts that make up the set are not aligned in position, it is difficult to assemble the protruding threads of the anchor bolts in the through holes formed in the upper base plate. And when incorrectly aligned anchor bolts are combined with the base plate, there may be a problem that the base plate is misaligned with the designed direction or the position where the base plate is disposed at the position is different from the design position.

Therefore, if the anchor bolts are not aligned in position, it may be difficult to install the base plate as described above, and may cause an incorrect installation of the base plate, which may cause difficulty in installing the upper vertical beam as designed.

As described above, it is desirable to propose a method of constructing the anchor bolts to maintain the vertical state in the process of constructing the vertical beam structure.

It is an object of the present invention to provide an anchor bolt alignment device that can easily align anchor bolts in a set position in the course of constructing a vertical beam structure.

Another object of the present invention is to provide an anchor bolt alignment device capable of vertically installing anchor bolts partially embedded in reinforced concrete in the process of constructing a vertical beam structure.

It is another object of the present invention to provide an anchor bolt alignment device capable of supporting anchor bolts while maintaining horizontality.

In addition, another object of the present invention is to provide an anchor bolt alignment device capable of mutually aligning adjacent ones so that sets of anchor bolts can be arranged at each position where a vertical beam is installed.

In the anchor bolt alignment device according to the present invention, a support having a through hole for holding an anchor bolt installed vertically with a rectangular shape of a flat plate is formed for each vertex and the first through hole is formed at a position spaced from each vertex An upper frame having a second through hole formed between the vertex and the first through hole; A lower frame having the same shape as the upper frame and spaced below the upper frame; Vertical pillars extending a predetermined length to a lower portion of the lower frame while maintaining a spaced distance corresponding to each vertex of the upper frame and the lower frame; A guide member installed through the first through hole of the upper frame and the lower frame and aligning a position of the auxiliary reinforcing bar installed between the vertical column and the spaced space between the vertical column and the lower frame; And a height adjusting member installed through the second through hole of the upper frame and the lower frame, the height adjusting member being able to adjust the height while the end thereof contacts the upper side of the auxiliary rebar.

Here, the guide member may have a shape having a body having a length extending from the head while having a head over the upper portion of the first through hole.

The guide member may be formed of any one of a nail, a pin having a head, and a bolt.

And, the height adjustment member may be composed of a bolt that is screwed with the second through hole.

A notch may be formed at the center of each side of the upper frame.

The support part may have an elliptical through hole having a long side so that at least two anchor bolts can be inserted therein.

In addition, the support part may be formed in two or more regions in which the anchor bolts can be inserted, respectively, independent of each other.

Therefore, according to the present invention, the anchor bolts installed in units of sets corresponding to the position of installing the vertical beams can be installed while being easily aligned and maintained in the right position so that the anchor bolts and their upper base plates are easily coupled. It can be provided so that the construction convenience and anchor bolts are installed while maintaining the vertical position in the right position can prevent the shift of the installation position and direction of the base plate has the effect of ensuring the stability of the upper structure .

In addition, according to the present invention, since the horizontality of the anchor bolt alignment device can be easily adjusted, the vertical state of the anchor bolts supported by the anchor bolt alignment device can be easily adjusted.

And, according to the present invention by using the notch formed in the anchor bolt alignment device, the set of anchor bolts can be aligned with each position where the vertical beam is installed so that the vertical beams can be installed vertically in the correct position and direction. There is.

1 is a cross-sectional view showing a preferred embodiment of a vertical beam support structure according to the present invention.
2 is a partially exploded perspective view illustrating a state in which the embodiment of FIG. 1 is constructed.
3 is a perspective view of the anchor bolt alignment device of FIG.
4 is a plan view illustrating a method of adjusting the horizontality using the anchor bolt alignment device of FIG.
5 is a layout view illustrating a method of aligning an arrangement state between a plurality of anchor bolt alignment devices.
6 is a perspective view of another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, it should be understood that the following embodiments are provided so that those skilled in the art will be able to fully understand the present invention, and that various modifications may be made without departing from the scope of the present invention. It is not.

1 is a cross-sectional view showing a preferred embodiment of the vertical beam support structure according to the present invention.

Referring to FIG. 1, the vertical beam support structure according to the present invention performs a function of supporting the upper structure by transmitting and distributing an upper load applied in the vertical direction to the ground while vertically installing the vertical beam 10. do.

Reinforced concrete 12 is formed on the ground 14 to reinforce the soft ground in the lower portion where the vertical beam 10 is installed as in the present invention.

The reinforced concrete 12 may be designed to have a sufficient thickness so as not to settle or crack due to the load in consideration of the load of the vertical beam 10 and the structure installed on the upper portion thereof.

In addition, the reinforced concrete 12 has a structure in which reinforcing bars 16 are vertically and horizontally intersected and a reinforcing structure in which a network of reinforcing bars is formed in a multi-layered structure is embedded in the concrete layer 18. Reinforced concrete 12 may be reinforced by a reinforcing structure made of reinforcement.

As described above, the anchor bolts 20 are configured in the reinforced concrete 12 formed on the ground 14 for each position where the vertical beam 10 is to be installed, and the anchor bolts 20 are each vertical beam 10. A plurality of units are arranged while being supported by the anchor bolt alignment device 22 while forming a set.

Each anchor bolt 20 constituting the set is supported so that the installed state by the anchor bolt alignment device 22 can be aligned while maintaining the installed state vertically. Then, the anchor bolt 20 is installed vertically so that the screw end forming one end thereof is exposed to the upper side of the reinforced concrete 12 and the bent end forming the other end is embedded in the reinforced concrete 12.

In addition, the anchor bolt alignment device 22 is disposed at the position where the set of anchor bolts 20 between the reinforcing structures made of the reinforcing bars 16 is installed and supports the vertical installation state of the anchor bolts 20 as described above. It has a function of aligning positions between the set anchor bolts 20.

After the reinforcing structure consisting of the reinforcing bar 16 and the anchor bolt alignment device 22 and the anchor bolts 20 are installed, concrete forming the concrete layer 18 may be poured to form the reinforced concrete 12. In this case, the anchor bolt 20 is partially embedded so that the threaded end protrudes vertically from the upper surface of the reinforced concrete 12.

That is, the upper end of the reinforced concrete 12 has a configuration in which the screw ends of the set of anchor bolts 20 protrude vertically by a predetermined length for each area in which the vertical beam is to be installed.

As described above, the base plate 42 is disposed at the position where the screw ends of the anchor bolts 20 protruding in a set unit are disposed, and the base plate 42 has protruding screw ends of the anchor bolts 20 at each vertex. A through hole 44 having a diameter to penetrate is formed.

Therefore, the base plate 42 can be fixed by a nut 46 which is screwed with the protruding screw ends of the anchor bolts 20.

And, on the upper side of the base plate 42, a vertical beam 10, such as an H beam, which is vertically installed by welding or bolt coupling through a separate coupling means, is installed.

As described above, the vertical beam support structure according to the present invention may be constructed using the anchor bolt alignment device 22.

On the other hand, with respect to the configuration of the above-described anchor bolt alignment device 22 will be described in detail with reference to the partial exploded perspective view illustrating the construction state of Figure 2 and the perspective view of the anchor bolt alignment device of FIG.

The anchor bolt alignment device 22 is spaced apart in parallel between the upper frame 24 and the lower frame 26 having a rectangular shape of the plate and their spaced apart state is maintained by vertical pillars 34 constituted by vertices. Has a configuration.

Here, the upper frame 24 is formed so that the support portion 30 having a through hole for holding the anchor bolt 20 installed vertically with a rectangular shape of the plate has a configuration extending outward for each vertex and each vertex The first through hole 60 is formed at a position spaced inwardly and inwardly, and the second through hole 62 is formed between the vertex and the first through hole 60.

The through hole formed in the support part 30 may have an oval shape having a long side so that at least two anchor bolts 20 may be inserted.

In addition, the lower frame 26 spaced parallel to the upper frame 24 has the same shape as the upper frame 24.

The vertical pillars 34 have a top coupled to a vertex of the upper frame 24 and an upper side coupled to a vertex of the lower frame 26. The vertical pillars 34 supporting the spaced state between the upper frame 24 and the lower frame 26 may be combined with the upper frame 24 and the lower frame 26 by welding or the like, and the lower frame 26 may be used. It has a configuration extending a predetermined length downward.

In addition, the guide member 40 may be installed through the first through hole 60 of the upper frame 24 and the lower frame 26, and the guide member 40 may be inserted into the lower frame 26. It has a function of aligning the position of the secondary reinforcement 50 aligned to the lower side between the vertical column 34 adjacent to it and the spaced space therebetween.

In addition, the height adjusting member 41 may be penetrated through the second through hole 62 of the upper frame 24 and the lower frame 26, and the height adjusting member 41 may be lower than the lower frame 26. It has a function that can adjust the height while its end is in contact with the auxiliary reinforcing bar 50, the position is aligned by the guide member (40).

The guide member 40 may be used having a body extending from the head to penetrate the lower frame 26 while having a head spanning the upper portion of the first through hole 60 of the upper frame 24. Preferably, any one of a nail, a pin having a head, and a bolt may be used as the guide member 40.

Height adjustment member 41 may be composed of a bolt that is screwed with the second through hole 62 of any one of the upper frame 24 or the lower frame 26, for this purpose, the second through hole 62 Threads may be formed in the inner diameter.

As described above, the anchor bolt alignment device 22 according to the present invention may be configured, and the anchor bolt alignment device 22 is a reinforcing structure in which reinforcing bars 16 are assembled to pour concrete 18 as shown in FIG. 4. It is disposed between and can arrange the position of the plurality of anchor bolts 20. In addition, the anchor bolt alignment device 22 adjusts the height adjusting member 41 in a state where the auxiliary reinforcing bar 50 is disposed between the guide member 40 and the leg 34 of the lower part of the lower frame 26 in a horizontal state. Can be adjusted.

As the upper frame 24 and the lower frame 26 have a configuration in which the center penetrates and is spaced up and down so that each side is opened, concrete 18 to be poured to form the reinforced concrete 12 is formed. It can be ensured to be introduced into the rectangular body formed by the upper frame 24 and the lower frame 26. Therefore, the concrete layer 12 can be formed without forming voids in the anchor bolt alignment device 22.

In addition, the support part 30 of the upper frame 24 and the lower frame 26 are formed to overlap each other while being spaced apart vertically.

As described above, as the support part 30 of the upper frame 24 and the lower frame 26 overlap each other, the anchor bolt 20 penetrating vertically may be gripped and aligned in the through hole of the support part 30.

In the embodiment, since the support part 30 is formed corresponding to the four vertices of the upper frame 24 and the lower frame 26, four anchor bolts 20 may form one set. Alternatively, a pair of anchor bolts 20 may be installed on the support 30 according to the intention of the manufacturer, in which case eight anchor bolts 20 may form a set.

On the other hand, the upper frame 24 has a long side and a short side, the notch 36 may be formed on the outer side or the inner side (the embodiment of FIGS. 1 to 5 illustrate the inner side) of each side.

Notch 36 refers to a region in which the center of the edge is cut. In an embodiment, the notch 36 may have an isosceles triangle shape.

The vertical beam support structure according to the present invention configured as described above is to form a reinforcement structure by reinforcing bar 16 after the surface 14 of the position to install the vertical beam 10 to select the surface to be reinforced, anchor bolts ( 20) the anchor bolt alignment device 22 installed so as to vertically penetrate the support part 30 of each vertex is disposed between the reinforcing bars 16 constituting the reinforcing structure, and then the concrete layer 18 is poured to reinforce the concrete 12. To form.

At this time, the alignment state of the anchor bolts 20 forming the set may be controlled using the anchor bolt alignment device 22 before placing the concrete layer 18. That is, the separation distance or the alignment position between the anchor blts 20 may be controlled by installing the anchor bolts 20 in the anchor bolt alignment device 22.

More specifically, the anchor bolt alignment device 22 is designed so that the through hole 34 of each vertex formed in the upper frame 24 is formed at a predetermined position by being manufactured in a standardized manner.

Therefore, the anchor bolts 20 are installed such that the anchor bolts 20 are installed to be gripped by the support parts 30 overlapping up and down at each vertex of the anchor bolt alignment device 22. Can be aligned in place.

And, it is difficult to ensure that the anchor bolts 20 are installed vertically when the anchor bolt alignment device 22 is misaligned. To this end, the anchor bolt alignment device 22 may be adjusted in a horizontal state by using the height adjusting member 41.

That is, the auxiliary reinforcing bar 50 guided by the guide member 40 may be arranged in a lower position where the height adjusting member 41 of the upper frame 24 and the lower frame 24 is installed. In this state, when the bolt is composed of the height adjusting member 41 for each vertex of the upper frame 24 and the lower frame 26, the anchor bolt is rotated by rotating the bolt while the end of the bolt is in contact with the auxiliary reinforcing bar 50. The height can be adjusted at four vertices of the alignment device 22 so that the horizontal state can be adjusted.

As such, when the anchor bolt alignment device 22 is adjusted to be horizontal, the anchor bolts 20 supported by the anchor bolt alignment device 22 are aligned to be disposed vertically.

Here, the auxiliary reinforcing bar 50 is disposed so as to penetrate through the lower part provided with the height adjustment member 41 of the lower frame 26 of the anchor bolt alignment device 22 between the reinforcing bar is coupled in a lattice structure and both ends are welded or not. It can be configured to be fixed between the reinforcing bars constituting the reinforcing structure using the other coupling member.

In the embodiment of the present invention has been described by explaining that the auxiliary reinforcing bar 50 penetrating through the anchor bolt alignment device 22 is not limited thereto, but in addition to the auxiliary reinforcing bar 50 as a support member for supporting according to the manufacturer's intention Various members can be constructed.

On the other hand, the building structure should be installed a plurality of vertical beams and the anchor bolts should be arranged in the designed direction for each position where a plurality of vertical beams are installed. That is, the sets of anchor bolts must be aligned with each other where the vertical beam is installed.

To this end, the notch 36 formed at the center of each side of the upper frame 24 may be used.

That is, as shown in FIG. 5, the anchor bolt alignment device 22 may be disposed at each position to install the vertical beam, and connect the wire 52 between the notches 36 of the anchor bolt alignment device 22 located at the outermost side. The mutual alignment of the anchor bolt alignment device 22 can be confirmed. Here, the wire 52 may be a linear member such as thread or string.

That is, if each notch 36 of the anchor bolt alignment device 22 arranged for each position is matched to the position of the wire 52, the anchor bolt alignment device 22 is located in the correct position without being oriented with each other. Can be recognized.

In contrast, if the notch 36 of the anchor bolt alignment device 22 does not match the position of the wire 52, it may be recognized that an error has occurred in the position or direction of the anchor bolt alignment device 22, in which case the anchor bolt By correcting the position or direction of the alignment device 22, the anchor bolt alignment device 22 can be arranged in the correct position and the forward direction.

In this way, the anchor bolt alignment device 22 is aligned with each other prior to the concrete placing, so that each set of anchor bolts 20 can be positioned at the correct position, so that the vertical beams can be installed while keeping the vertical at the correct position.

In addition, the anchor bolt alignment device 22 according to the present invention can be implemented as shown in FIG.

In the embodiment of FIG. 6, unlike the embodiment of FIGS. 1 to 5, the support part 30 is formed to extend outwardly to overlap each vertex of the upper frame 24 and the lower frame 26. It has the structure which has a pair of support bodies 31a and 31b. Here, the support 30 may have a configuration in which at least two supporters 31a and 31b into which the anchor bolts 20 can be inserted, are formed in independent regions from each other.

Moreover, the notch 36 of the upper frame 24 and the lower frame 26 has the structure formed in the outer side of each side.

6 has the same configuration as the embodiment of FIGS. 1 to 5 except for the above-described configuration, and thus descriptions of overlapping configurations and operations will be omitted.

The support part 30 having the shape extending outward for each vertex of the upper frame 24 and the lower frame 26 of the anchor bolt aligning device 22 is formed in the independent space, respectively, as the support holes 31a and 31b are formed. The anchor bolt 20 may have a function of supporting a state in which the anchor bolts 20 are installed vertically by holding the support holes 31a and 31b, respectively.

In addition, since the notch 36 formed in FIG. 6 is the same as the operation described with reference to FIG. 5, duplicate description thereof will be omitted.

By using the anchor bolt alignment device as described above, the vertical beam structure according to the present invention can be easily adjusted the alignment and vertical state of the anchor bolts are installed before placing the set concrete, anchors for installing each vertical beam The set of bolts can be aligned with each other.

Therefore, according to the present invention, the convenience of installation of anchor bolts can be provided, and the stability of the upper structure can be ensured by correctly installing the anchor bolts.

In addition, the sets of anchor bolts may be mutually aligned for each position where the vertical beam is installed, and thus the vertical beams may be installed vertically in the correct position and direction.

10 vertical beam 12 reinforced concrete
14: ground 16: rebar
18: concrete layer 20: anchor bolt
22: anchor bolt alignment device 24: upper frame
26: lower frame 30: support
34: leg 36: notch
40: guide member 41: height adjustment member
42 base plate 44 through hole
46: nut 50: secondary rebar
52: wire 60: first through hole
62: second through hole

Claims (7)

A support having a rectangular shape of a plate and a through hole for holding an anchor bolt installed vertically is formed for each vertex, and a first through hole is formed at a position spaced apart from each vertex, and between the vertex and the first through hole. An upper frame having a second through hole formed therein;
A lower frame having the same shape as the upper frame and spaced below the upper frame;
Vertical pillars extending a predetermined length to a lower portion of the lower frame while maintaining a spaced distance corresponding to each vertex of the upper frame and the lower frame;
A guide member installed through the first through hole of the upper frame and the lower frame and aligning a position of the auxiliary reinforcing bar installed between the vertical column and the spaced space between the vertical column and the lower frame; And
And a height adjusting member installed through the second through hole of the upper frame and the lower frame, the height adjusting member being able to adjust its height while abutting its end portion on the upper side of the auxiliary reinforcing bar.
The method according to claim 1,
And the guide member has a head extending over the first through hole and having a body having a length extending from the head.
The method of claim 2,
The guide member is anchor bolt alignment device consisting of any one of a nail, a pin having a head, a bolt.
The method according to claim 1,
The height adjusting member is anchor bolt alignment device consisting of a bolt screwed with the second through hole.
The method according to claim 1,
Anchor bolt alignment device formed with a notch in the center of each side of the upper frame.
The method according to claim 1,
And the support portion has an elliptical through hole having a long side so that at least two anchor bolts can be inserted.
The method according to claim 1,
The support unit is anchor bolt alignment device formed with at least two anchor bolts each of which can be inserted into the support is independent of each other.

Images