JPS62284826A - Assembly unit with anchor bolt - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application 1] The present invention relates to an anchor bolt assembly mainly used for column bases of steel buildings.

[Prior Art] As shown in FIG. 6, a column base 10 of a steel frame building includes a steel frame column 1, a pace plate 2 attached to the lower end of the column by welding or the like, an anchor bolt assembly 3, and a base concrete. 4.

The anchor bolt assembly 3 includes an anchor bolt 5, a flat washer 6 and a nut 7 screwed onto the upper end threaded portion 5a of the anchor bolt 5, and a pair of nuts screwed onto the lower end threaded portion 5b of the anchor bolt 5. 8a, 8b and nuts 8a and 8
A fixed signboard 9 is fixed to the anchor bolt 5 while being sandwiched between the anchor bolts 5 and 5.

In such a column base 10, the steel frame column 1 has @ of the building.
Axial force N and horizontal force F are applied due to earthquakes and strong winds.

Bending moment M that attempts to bend column WJ1o due to horizontal force F, and shear force Q that attempts to move it in the horizontal direction
occurs.

For bending moment M and axial force N, stress is transferred from steel column 1 to base plate 2. Anchor bolt 5. The column base 10M is designed so that the foundation concrete 4 is transferred in this order. Furthermore, the design is such that when the shear force Q is small, the stress is transmitted in the order from the steel column 1 to the base plate 2) and the MN concrete 4.

In this case, the transmission of stress from the pace plate 2 to the foundation concrete 4 is caused by the frictional resistance force Qa1 between the base plate 2 and the foundation concrete 1 and 4 caused by the axial force N acting on the column base 10 and the tensile force of the anchor bolts. This is done by

Further, if the value of the shear force Q is large and I'a + friction resistance force Qa1 between the base plate 2 and the foundation concrete 4 cannot resist the shear force Q, from the steel column 1 to the base plate 2; Anchor bolt 5. It is designed so that stress is transmitted in the order of foundation concrete 4. For this purpose, the anchor bolt 5 and the hole 2 of the base plate 2 are
With the aim of filling as much clearance as possible with a.
As shown in FIG. 8, the base plate 2 and the flat washer 7, which has an inner shape with a small clearance relative to the outer diameter of the anchor bolt 5, were welded by fillet welding on the entire circumference. The welded portion is indicated by 11.

Recently, there has been a growing need to increase the strength of the column base 10 based on the concept of earthquake-resistant design. One of the important factors is to use Anchor Pol 1~ (high strength).

[Problem to be Solved by the Invention 1] However, conventionally, when anchor bolts with a tensile strength of 50 kg/m or more are used in the column base 10, flat washers 6 etc. made of the same material as the anchor bolts, which are set parts, are generally used. had a high carbon content and carbon equivalent (Ceq) and could not be welded to the base plate.

Therefore, this high strength (tensile strength of 5 (1 g/m or more))
When using an anchor bolt of 2, a large shear force Q cannot be transmitted from the base plate 2 to the anchor bolt 5. As a result, using this high strength anchor bolt,
Although the bending strength Ma (proof strength to resist bending moment M) of the column base 10 is improved, it is not! The li proof stress Qa is the frictional resistance force Qa1 between the base plate 2 and the foundation concrete 4.
There was a problem that it could only be secured by 100%, and it would actually decline.

The present invention aims to solve these problems.

[Means for Solving the Problems] The coarse solid body of the anchor bolt for fastening objects of the present invention has a diameter of 50
An anchor bolt made of a material having a tensile strength of ~70 Kg/d, and made of welded structural steel, with an outer diameter of 1.73 times or more the outer diameter of the threaded part of the anchor bolt and a thickness of the anchor bolt. It is characterized by having a flat washer whose diameter is 0.13 times or more the outer diameter of the threaded portion, and a nut.

Example 1 FIG. 1 shows an anchor bolt assembly 20 of the present invention. This is a flat washer 23 interposed between the anchor bolt 21, a nut 22 screwed onto the upper end threaded portion 21a, and a fastened object (not shown), and a nut 22 screwed onto the lower end threaded portion 21b of the anchor bolt 21. A pair of nuts 24a and 24b to be worn,
Nut 24a.

and a fixing plate 25 fixed by 24b.

J Deer Bolt 21 has a tensile strength of 50 to 70 Kyld.
The material is 8850, 5855.5R.
30,5RR40,5D30,5D35.5D40.5
D50, 530C, 835C.

Consists of 540C, 545C, 850G, and 855G. The flat washer 23 is made of steel material for welding, specifically SM
50 or SMA50. The outer diameter of the flat washer 23 is 1.73 times or more the thread outer diameter of the anchor bolt 21 or more, and the thickness is 0.13 times or more the thread outer diameter of the anchor bolt 21. Further, the inner diameter is preferably set between the thread outer diameter of the anchor bolt 21 and the thread outer diameter +2 m+. Further, it is preferable that the nut 22 is made of the same material as the anchor bolt 21.

FIG. 2 shows an anchor bolt assembly 3 according to another embodiment of the present invention.
Indicates 0. The materials of the anchor bolt 31 and the flat washer 33 are the same as those in Fig. m1. Also nuts 34a, 34b
The fixing plate 35 is also the same as that shown in FIG.

The first feature of this embodiment is that the nut 32 is made of general V4 construction steel and welded structural steel, specifically SS41, SM
41 or SMA41.

The second feature is that the height of the nut 32 is approximately 0.92 to 1.40 times the outer diameter of the threaded portion of the anchor bolt 31. This corresponds to 1.15 to 1.75 times the height specified by JIS (approximately 0.8 times the outer diameter of the thread of the anchor bolt). The shapes of other parts are the same as in FIG.

When using the anchor bolt assembly 20 according to the embodiment shown in FIG.
/rrt high tensile strength can be expected, and at the same time, since the plain washer 23 is made of SM50 or SMA50 material,
Since the flat washer 23 and the base plate 2 can be well welded, a high shear strength Qa can be ensured at the column base.

As a result, the shear force Q generated in the steel column 1 is reduced to the base plate 2) flat washer 23 and anchor bolt 21. It can be smoothly transmitted to the foundation concrete 4 through.

Further, according to the present invention, the standard for flat washers according to Jl5BI 256 "Hardness classification of flat washers when using bolts with strength classification of 4°6 to 6.8 14 days (Vickers hardness HVl.
40). ” can also be satisfied.

Further, when the flat washer 23 of the present invention is used, fillet welding can be performed all around the circumference. In this case, the following calculation shows that the outer diameter of the flat washer 23 is 1.73 times or more the thread outer diameter of the anchor bolt, and the thickness is 0.13 times or more the thread outer diameter of the anchor bolt. Thus, the full shear strength sQa of the anchor bolt 21 can be covered.

(a) Total strength shear strength of anchor bolt 5Qad: Anchor bolt thread outer diameter fl: Anchor bolt yield point -2.8t/cr” (b)
Shear strength of the fillet weld around the entire circumference of the flat washer vJQLD: Outer diameter of the flat washer ≧1.73 CI t: Thickness of the flat washer f2; Allowable tensile stress of the fillet weld = 3.3 t/d (c) Flat The condition when the shear strength wQa of the fillet weld around the entire circumference of the washer is greater than the total strength shear strength eQa of the anchor bolt Qa≦wQa, ', 0.95d"≦7.3td, °, t≧0.13d Further According to a preferred embodiment of the invention, the flat washer 23
has an inner diameter between the outer thread diameter of the anchor bolt and the thread outer diameter of the anchor bolt +2, so even if the column base 1o shifts in the horizontal direction due to the shear force Q acting on the column base 10, , its hanging is up to 4 darkness. Therefore, as shown in Fig. 3, the amount of horizontal displacement δ of the pillar 1 for one square of the building at that time is - the height h for one square of the building, which is a general value of 350.
Assuming 0/lln, it is approximately 1/875, which is within the range that fully satisfies the current legal standard of 1/200.

In addition, in the anchor bolt assembly according to another embodiment of the present invention (FIG. 2), the nut 32 is made of a material that has the same strength performance as the anchor bolt 31 and can be fillet welded all around the flat washer 33. I am using it. Since this nut 32 is made of a material that can be welded, it has low mechanical properties (yield point, tensile strength), but it has a thread equivalent to a standard nut (same material as the anchor bolt 31) specified by JIS. The height of the nut made of the same material as the anchor bolt 31 specified by JIS is 1.15 to 1.
It has 75 times the height.

The basis for the figures is as follows.

(a) Strength T of the threaded part of the nut made of the same material as the anchor bolt
a S: Thread strength of the nut made of the same material as the anchor bolt n: Number of threads of the nut made of the same material as the anchor bolt H: Height determined by JIS of the nut made of the same material as the anchor bolt p: Same as the anchor bolt Thread pitch of the nut (b) of the material Thread strength of the nut 32 of the second embodiment TaS'
: Strength of the threads of the nut 32 in the second embodiment n': Number of threads H' in n = height p: Thread pitch (same as the pitch in (A)) (C) Second embodiment The condition under which the thread strength of the nut 32 and the nut made of the same material as the anchor bolt is the same is Ta=Ta'.The ratio of the yield point of the nut 32 is 1.15 to 1.75 in the combination according to the present invention.

, ', 1.15H≦H'≦1.75H Open the anchor bolt assembly 30 and attach the flat washer 33 and base plate 2. If the plain washer 33 and the nut 32 are used by fillet welding the entire circumference, it is possible to ensure the full shear strength Qa of the anchor bolt 31 in the column base 10, and at the same time, it is possible to prevent the nut 32 from loosening.

As shown in FIGS. 1 and 2, the anchor bolt assembly according to the present invention has a serving plate 5 attached to the lowermost end of the anchor bolt.
FIG.

A similar effect 1q can be obtained even if the lowermost end of the anchor bolt is bent into a J-shape or an L-shape as shown in FIG.

[Effect of the Invention 1] If the anchor bolt assembly according to the present invention is combined for the purpose of fastening objects to be fastened and used for a column base of a steel frame building, etc., the following effects can be expected.

(a) It is possible to increase the bending strength Ma and shear strength Qa of the column base at the same time. (50 to 7 for anchor bolts.
While securing a tensile strength of 0h/d, it is also possible to secure a shear strength of 8Qa at the full strength of the anchor bolt. ) (b) It becomes possible to prevent anchor bolts from loosening with a tensile strength of 50 to 70 Ky/-.

[Brief explanation of drawings]

FIG. 1 is a partially sectional view showing an anchor bolt assembly according to one embodiment of the present invention, and FIG. 2 is a partially sectional view showing an anchor bolt assembly according to another embodiment of the present invention. FIG. 3 is a diagram showing interstory deformation of a building using the anchor bolt assembly of the present invention, and FIGS. 4 and 5 are partial cross-sections showing still another example of the anchor bolt assembly of the present invention. 6 is a diagram showing a column base using a conventional anchor bolt assembly; FIG. 7 is a diagram showing external force acting on the column base in FIG. 6; FIG. 8 is a diagram showing an external force acting on the column base in FIG. 1 is a diagram showing a state in which a flat washer of a conventional anchor bolt assembly is welded to a base plate. 1・・・・・・・・・・・・・・・・・・・・・・・・
Steel column 2・・・・・・・・・・・・・・・・・・・・・
・・・Base plate 3.20.30・・・Anchor bolt assembly 4・・・・・・・・・・・・・・・
......Foundation concrete 5.21.31...
...Anchor bolt 6.23.33...Flat washer 7.22.32...Nuts 8a, 8b, 24a, 24b, 34a, 34b.・・・・・・Natsuto 9.25.35・・・Fixing plate 10・・・・・・・・・・・・・・・・・・Column base application agent Patent attorney Takaishi Tachibana Uma Figure 1
Figure 2, Figure 6, “Procedural amendment (Kyo) 7 June 27, 1986 Director General of the Patent Office Mr. Ubuya Michibu Anchor bolt assembly 3 Name of person making the amendment Title (508) Hitachi Metals, Ltd. Amendment Contents (1) Clear fill page 12, line 3, rTaJ is rTa-
Correct it with J.

Claims (6)

[Claims] (1) In an anchor bolt assembly for fastening fastened objects consisting of an anchor bolt, a flat washer, and a nut, the anchor bolt is made of a material having a tensile strength of 50 to 70 kg/mm^2, and the flat washer is welded. It is made of structural steel, and the outer diameter of the flat washer is 1.73 times or more the outer diameter of the threaded part of the anchor bolt, and the thickness is 0.13 times or more the outer diameter of the threaded part of the anchor bolt. Characteristic anchor bolt assembly. (2) The anchor bolt assembly according to claim 1, wherein the difference between the inner diameter of the flat washer and the outer diameter of the threaded portion of the anchor bolt is within 2 mm. . (3) In the anchor bolt assembly according to claim 1 or 2, the nut is made of a general structural steel material or a welded structural steel material, and the nut is approximately 0.0 mm larger than the outer diameter of the threaded portion of the anchor bolt. An anchor bolt assembly having a height of 92 times to 1.40 times. (4) In the anchor bolt assembly according to any one of claims 1 to 3, the anchor bolt is SS50, SS55, SR30, SRR40, SD
30, SD35, SD40, SD50, S30C, S3
An anchor bolt assembly characterized by being made of any one of the following materials: 5C, S40C, S45C, S50C and S55C. (5) In the anchor bolt assembly according to any one of claims 1 to 4, the flat washer is SM
An anchor bolt assembly characterized in that it is made of a material of 50 or SMA50. (6) In the anchor bolt assembly according to any one of claims 1 to 5, the nut is SS
41, SM41, and SMA41.