JPH01304220A - Foundation anchor construction and anchor bolt - Google Patents

Abstract

PURPOSE:To improve the fixity of a foundation by forming a flat plane along a specially thick and deformed bar and joining anchor bolts with a large number of stud dowels projected from the flat plane with a positioning templet as a foundation anchor. CONSTITUTION:A continuous flat plane is formed on the peripheral surface of a specially thick and deformed bar along the bar, and a plurality of stud dowels 4 are welded and planted from the flat plane to form anchor bolts 1. A plurality of anchor bolts 1 and a positioning templet 5 are joined, and it is buried into a foundation concrete 7 for a foundation anchor section. A large number of knot-like projections are provided on the peripheral surface of the deformed bar. Accordingly, proof stress and toughness of the performance of fixity of the anchor bolt can be improved.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to the structure of a foundation anchor part for connecting a steel bridge pier and footing concrete, etc., and to an anchor bolt used in the anchor part.

[Conventional technology]

In conventional steel pier anchors, large-diameter anchor bolts with smooth surfaces are fixed to steel welded anchor frames, and the seismic force that acts on the pier is absorbed by the concrete footing as a bearing force through the anchor frame. is being communicated to. That is, as shown in FIG. 5, after fixing the anchor bolt 12 to the anchor frame consisting of the anchor beam 13 and the connecting material 14 and pouring footing concrete, the steel pier 8 and the anchor bolt 12 are fastened with nuts 9. The bridge pier foundation structure is being constructed.

In addition, as another conventional technology, there is a structure in which deformed reinforcing bars are used as anchor bolts in the foundations of steel towers, etc., although they are not bridge piers, and are attached and fixed in the footings (JP-A-6
1-78925).

[Problems to be Solved by the Invention] However, the conventional anchor structure described above has the following problems.

First, in the former structure using an anchor frame, the pulling force and pushing force due to the bending load from the pier during an earthquake acts intensively on the anchor frame within the footing. However, in order to provide large rigidity to the anchor frame and to distribute the load, the weight of the anchor frame becomes large, and manufacturing costs such as processing become high. Therefore, manufacturing the anchor frame occupies a large proportion of the cost of the anchor structure. In addition, because the anchor frame is a heavy object and has the same planar dimensions as the pier, whether it is assembled on site or in a factory, the heavy equipment needed to transport it will be large and construction costs will also be high.

In addition, in the latter structure that uses anchor bolts, when applied to large structures such as bridge piers, a large diameter material with a diameter of 100 to 160 mm is required as the anchor bolt. According to the formula that calculates the length in proportion to the diameter, the fixation length required to fix the anchor bolt becomes larger than the footing thickness determined from the footing resistance aspect, and the footing thickness needs to be increased. There is no major problem when only axial force acts on the footing, such as in the case of a steel tower foundation, but when bending is applied to the footing, as in the case of a bridge pier, and this is supported by piles, the footing has a wide area, so An increase in the footing thickness results in a significant increase in the amount of concrete and an increase in the pile diameter, which is extremely disadvantageous in terms of cost.

On the other hand, it is conceivable to arrange a large number of anchor bolts without using large-diameter materials, but the reliability of the anchor portion becomes insufficient each time the effectiveness of the large number of anchor bolts becomes uneven.

This invention aims to reduce the manufacturing cost of the anchor part by increasing the adhesive strength of the adhesive-fixing type anchor bolt and omitting the anchor frame.

[Failure to solve the problem]

Hereinafter, an outline of the present invention will be explained using the reference numerals of the embodiments.

In this invention, as the anchor bolt 1, a very thick deformed steel bar is used, which has a flat surface 3 continuous in the axial direction of the bolt and a protrusion 2 formed on its outer circumferential surface, and a large number of stud dowels 4 are welded onto the flat surface 3. The adhesive force is increased by the ridge-like protrusion 2 and stud dowel 4.

A template 5 for positioning and shape retention can be easily joined to the anchor bolt 1 by using the flat surface 3. In this way, by connecting a plurality of anchor bolts 1 with the template 5 and embedding them in foundation concrete such as the concrete footing 7, a foundation anchor portion having high adhesion and fixing performance is formed.

In addition, as a structure to increase the adhesion and fixing force of the foundation anchor part, there is a structure in which a fixing plate 18 having a diameter larger than the outer diameter of the extra-thick deformed steel bar is joined to the tip of the anchor bolt 16 having the protrusion 17. In that case, the flat surface 3 of the stud dowel 4 as the welding surface is not necessarily required. In addition, it is also possible to use the above-described stud dowel 4 and fixing plate 18 together. Further, the fixing plate 18 is not limited to only the tip portion, but a plurality of fixing plates 18 may be provided in the intermediate portion to further improve the fixing durability.

〔Example] Next, the illustrated embodiment will be described.

FIG. 1 shows an embodiment in which the present invention is applied to a pier foundation, and FIG. 2 shows an example of an anchor bolt of the present invention.

Anchor bolt 1 has a flat surface 3 that continues in the axial direction on the outer peripheral surface.
It is made of an extra-thick deformed steel bar with two sides, and the remaining outer circumferential surface is provided with protrusions 2. This anchor bolt 1 has a threaded upper end, and the lower end of the steel pier 8 is fixed with a nut 9 as in the conventional example, but the flap 2 of the anchor bolt 1 is rolled into a thread shape. If you use , thread cutting is not necessary.

Regarding the anchoring section within the footing 7, stud dowels 4 are installed at a predetermined pitch on the flat surface 3 of the anchor bolt 1.
By doing so, we aim to improve the adhesion of Anchor Pol 1.1. In this case, since the welding position of the stud I' sheel 4 is flat, the strength and reliability of the stud dowel 4 can be said to be sufficient as in the case of welding on a normal steel plate.

Further, as shown in FIGS. 2 and 3, a mounting fitting 10 such as an angle can be pre-tightened and factory-welded on the flat surface 3 of the anchor pole 1-1. On the other hand, the template 5 for positioning and maintaining the shape of the anchor bolt 1 is produced in parts, transported to the site, and assembled at a predetermined position. Then, the anchor bolts 1 are sequentially attached to the template 5 using bolts 11. In addition, if there are no problems with dimensional restrictions during transportation or how the load is applied to the template 5, it is possible to assemble everything at the factory, thereby shortening the on-site construction time.

In the above-mentioned anchor bolt 1, the stud dowel 4 is welded onto the flat surface 3, whereas in the example shown in FIG. The aim is to 19 in the figure is a reinforcing rib. In addition, the fixing plate 1B has an anchor bolt 1
It can also be provided between the two. Similar to the anchor bolt 1 described above, this anchor bolt 12 is attached to the template 5 via the attachment fittings 10 and the like, and is embedded in foundation concrete to form an anchor portion.

At that time, a partial flat surface may be provided at the joining position of the mounting bracket 10, or a flat surface 3 continuous in the axial direction may be provided as in the above-mentioned anchor pole 1-1.

〔Effect of the invention〕

■ In this invention, by effectively installing the stud dowel or the fixing plate at the tip of the adhesive type anchor bolt, it is possible to appropriately improve the yield strength and tenacity of the fixing performance of the anchor bolt, giving freedom in designing the anchor bolt. The degree increases.

■ Also, due to the improved anchorage strength, the footing thickness is not affected by the anchor bolt anchorage length, so even though large diameter anchor bolts are used, it is possible to design a reasonable footing thickness that is determined by the footing side strength. I can do it.

On the other hand, in this invention, the anchor frame conventionally used as a fixing structure for large-diameter anchor bolts is omitted, and a lightweight temporary material can be used as a template for positioning the anchor bolt, which reduces the weight of the steel material. Manufacturing costs such as processing can be significantly reduced.

■ In addition, because the template is lightweight, it is easy to separate and assemble, and it can be easily and accurately assembled with anchor bolts. The effects of the invention are significant.

[BRIEF DESCRIPTION OF THE DRAWINGS] FIGS. 1(a) and (b) are vertical and horizontal sectional views, respectively, of an embodiment of the basic anchor structure of the present invention, and FIGS. 2(a) and (b) are 4(a) and 4(b) are horizontal sectional views and vertical sectional views showing other examples of anchor bolts; The figure is a vertical sectional view showing a conventional example. ■...Anchor bolt, 2...Cubular protrusion, 3...
・Flat surface, 4... Stud dowel, 5... Template, 6... Connecting material, 7... Concrete footing, 8... Steel pier, 9... Nut, 10...
Mounting bracket, 11... Bolt, 12... Anchor bolt, 13... Anchor beam, 14... Connecting material,
15... Nut, 16... Anchor bolt, 17.
...Finger-like projection, 18...Fixing plate, 19...Reinforcement rib

Claims (3)

[Claims] (1) A plurality of anchor bolts made by welding a large number of stud dowels on the flat surface of an extra-thick deformed steel bar with a flat surface continuous in the axial direction of the bolt and a protrusion on the outer peripheral surface,
A foundation anchor structure characterized by being connected to a positioning template and embedded in foundation concrete. (2) An anchor bolt made by welding a large number of stud dowels onto the flat surface of an extra-thick deformed steel bar, which has a flat surface continuous in the axial direction of the bolt and a ridge-like protrusion on its outer circumferential surface. (3) A template for positioning multiple anchor bolts made by joining a fixing plate having a diameter larger than the outer diameter of the extra-thick odd-shaped steel bar to the tip of the extra-thick odd-shaped steel bar with a protrusion formed on the outer peripheral surface. A foundation anchor structure characterized by being connected to the foundation and embedded in the foundation concrete.