KR20110005191U - Coupling device for steel structure with improved vibration damping abillity - Google Patents

Abstract

The present invention relates to a steel structure fastening structure and a steel structure fastening member having a high manganese alloy steel material having excellent vibration damping performance, the member to which the upper plate and the lower plate having at least one fastening hole to be used for fastening the steel structure is to be fastened It is disposed so as to contact each of the upper and lower surfaces of the end side of the end, the bolt is inserted into the upper washer is inserted into the fastening hole of the upper plate and the lower plate, and the lower washer is inserted into the bolt to contact the lower plate to the nut The bolt and the upper plate, the lower plate, the upper washer, the lower washer is a weight percent, C: 0.1% or less, Si: 0.5% or less, Mn: 15-20% and the rest are Fe and inevitable It provides a fastening structure with excellent vibration damping ability, which is composed of high manganese alloy steel material made of impurities. Accordingly, by fastening the steel structure by using a joining member having a high manganese alloy steel material, it is possible to maintain the strength and hardness of the fastening structure using the joining member for steel structure fastening made of conventional carbon steel, while maintaining the vibration damping performance, particularly in the joining part of the steel structure. By improving, the joints can extend the span, which is the distance between the points and the points of longer columns or beams.

Steel structure, high manganese alloy steel, vibration damping, bolts, washers

Description

Coupling device for steel structure with improved vibration damping abillity}

The present invention relates to a fastening member for steel structures such as plates, bolts or washers used for fastening steel structures, and the fastening structure thereof, and more particularly, while maintaining the strength and hardness of existing steel structural fastening members made of carbon steel, The present invention relates to a steel fastening member and a fastening structure for improving vibration damping performance by fastening a steel structure using a fastening member made of manganese alloy steel.

The steel structure refers to a structure that is assembled by joining them by means of rivets, bolts or welding using steel materials such as section steel, steel sheets, and flat steel, and among them, the main frame assembled with steel is called steel frame or steel frame.

On the other hand, it is called steel reinforced concrete structure, which is a structure using reinforced concrete and steel frame. Even when reinforced concrete is simply used as fireproof coating of steel frame, or when steel frame, concrete block group, and soft aviation are used together, steel frame is used at the stage of structural calculation. If it is designed as a structural member, it can be called a steel structure.

In recent years, with the trend of building structures becoming larger, more steel structures with less stiffness and greater rigidity are being constructed than concrete buildings. In addition, in the case of small buildings, prefabricated buildings that are short in construction air and economic in construction cost are increasing. As the construction of these steel structures increases, the use of T / S (torque share) bolts, which are advantageous for the strength of the joints and the convenient and accurate construction together with the high tension bolts, are increasing.

Steel structures have superior strength and toughness compared to reinforced concrete structures, and have the advantage that the span length, which is the distance between points, can be longer than that of reinforced concrete columns, while the longer the length, the more susceptible to vibration. There is a disadvantage to this. In addition, external forces caused by plastic deformation (buckling) due to self weight, compressive force, or environmental factors such as wind load and earthquake motion cause vibration, which adds to the difficulty of structural design. The larger the coefficient, the greater the economic loss.

The steel structural member is a material having a much higher strength per unit area than the reinforced concrete member. Of course, reinforced concrete is also reinforced concrete with reinforcing steel, but because it is a weaker material than steel, the member cross-section is not only large, but also its own weight. On the other hand, steel, which is strong, tough, and excellent in workability, can have a smaller cross section and reduce its own weight. Therefore, the span between points is larger than that of reinforced concrete, and it is suitable for a much higher building. Reinforced concrete columns are not as strong as steel columns, so the columns are thicker and do not consider buckling. However, the steel material has a high strength relative to the weight, so that the column may be thinned. Therefore, it is necessary to consider the buckling caused by the compressive force of the member.

In addition, the steel structure receives a lot of axial force, bending moment and shear force at the joint of the beam or the joint of the beam and earthquake due to wind and seismic motion. In addition, despite the fact that the vibration of steel structures caused by external forces caused by environmental factors such as wind load and earthquake motion is an important factor in the design, the actual condition of vibration damping has not been clearly identified and the theoretical prediction is impossible. In actual design, rough values are commonly used to compensate for this, but the basis is not clear.

Therefore, it is important to select the cross-section and structure type that does not occur buckling, but column joints for vibration control or joints between beams and beams are also very important factors, but most joining members such as bolts for fastening steel structures are made of carbon steel. It is a fastening structure that is difficult to achieve vibration control.

Buckling of the steel structure due to vibration caused by self-weight and external factors occurs in various forms such as flexural buckling, flexural-torsional buckling, transverse buckling, and local buckling of the plate elements constituting the member. In particular, in high-rise buildings or large structures, these problems occur in the plastic zone and thus require improvement of the steel fastening structure.

The present invention was devised to solve the problems in view of the above-described problems of the prior art, and is made of high manganese-based alloy steel while maintaining the strength of the existing fastening member made of carbon steel. An object of the present invention is to provide an excellent member for fastening a steel structure.

Steel structure fastening structure of the present invention for solving the above problems is arranged so that the upper plate and the lower plate having at least one fastening hole to be in contact with the upper and lower ends of the member to be fastened, respectively, to be used for fastening the steel structure, the bolt Is inserted into the fastening hole of the upper plate and the fastening hole of the lower plate, and the lower washer is inserted into the bolt so as to be contacted with the lower plate and tightened with a nut. The plate, the upper washer, and the lower washer are made of a high manganese alloy steel material.

The bolt, the upper plate, the lower plate, the upper washer, the lower washer and the nut is by weight% C: 0.1% or less, Si: 0.5% or less, Mn: 15-20% and the remainder is alloy steel composed of Fe and other unavoidable impurities Characterized in that made of a material.

Steel structure fastening member of the present invention for solving the above problems by weight% C: 0.1% or less, Si: 0.5% or less, Mn: 15-20% and the rest is a high manganese alloy steel composed of Fe and other unavoidable impurities It is made of a material.

The steel structure fastening member is characterized in that the bolt or washer or plate formed with at least one fastening hole to be used for fastening the steel structure.

According to the present invention, by fastening the steel structure by using a joining member having a high manganese alloy steel material, the vibration damping performance is particularly maintained at the joint of the steel structure while maintaining the strength and hardness of the fastening structure using the steel fastening member made of carbon steel. As a result, the joints can extend the span, which is the distance between the points and columns of longer columns or beams.

Hereinafter, with reference to the accompanying drawings will be described in detail the present invention.

1 is a perspective view showing a plate (upper or lower plate) constituting a steel structure fastening member according to the present invention, Figure 2 is a view showing the assembly structure of bolts, washers and nuts constituting the steel structure fastening member according to the present invention 3 is a view showing the assembly structure of the T / S bolt and the washer and nut constituting the steel structure fastening member according to the present invention, Figure 4 is a cross-sectional view of the steel structure fastening structure according to the present invention.

1 to 4, the steel structure fastening structure of the present invention is the upper plate (1a) and the lower having a high manganese-based alloy steel material disposed so as to be in contact with the upper and lower surfaces of the end side of the member 11 to be fastened, respectively The plate 1b has a structure in which a steel structure is fastened by friction welding by using a bolt 3 having a high manganese alloy steel material, and upper and lower washers 4 and 5 and a nut 6.

The steel structure fastening structure of the present invention is a structure in which a steel structure is fastened by joining members having a high manganese alloy steel material by improving the fastening structure by bolts having an existing carbon steel material. The vibration damping performance is improved while maintaining the hardness.

Steel structure fastening structure of the present invention is at least one fastening hole (2a) so that the bolt (3) for fastening the steel structure can be inserted into the upper plate (1a) and the lower plate (1b) is a rolled plate material having a high manganese alloy steel material 2b) is penetrated, and a bolt 3 having a high manganese alloy steel material is inserted into the upper washer 4 and sequentially inserted into the fastening hole 2a of the upper plate and the fastening hole 2b of the lower plate, The lower washer 5 is inserted into the bolt 3 to be in contact with the lower plate 2b, and is tightened by fastening with the nut 6.

The steel structure fastening structure of the present invention has the upper and lower plates (1a, 1b) and bolts (3), the upper and lower washers (4, 5) so that external forces caused by external environmental factors such as wind load or earthquake motion can be vibrated and damped at the joint. Joining members such as) are made of a high manganese alloy steel material. Such a steel fastening structure can be used suitably for joining or fastening column joints or columns and beams.

In particular, the joining members such as the bolt, the upper plate, the lower plate, the upper washer, the lower washer and the nut of the high manganese alloy steel constituting the steel structure fastening structure of the present invention by weight% C: 0.1% or less, Si: 0.5% or less , Mn: 15 to 20% and the remainder preferably has an alloy steel material composed of Fe and other unavoidable impurities.

Hereinafter will be described in detail with respect to the reason for the component limitation of the alloy steel material of the joining member, such as bolt, upper plate, lower plate, upper washer, lower washer and nut constituting the present invention as described above.

Mn of the alloy steel, which is a material of the joining members of the present invention, is preferably added in an amount of 15 to 20% by weight, because Mn generates ε-martensite in the vibration damping steel structure, which is a factor of vibration damping performance. In order to increase the ε area, when Mn is added in an amount less than 15 wt%, not only ε-martensite but also α′-martensite are increased, thereby lowering the contribution to vibration damping ability, and exceeding 20 wt%. This is because the amount of ε-martensite in the vibration damping steel is rather reduced and the ratio of γ-austenite is increased so that it cannot possess excellent vibration damping performance.

C is preferably added in the range of 0.1% by weight or less, because when more than 0.1% by weight of C is added, the excess C in the vibration damping steel interferes with the movement of the γ / ε interface to act as a fixation source. This is because the vibration damping performance is lowered.

Si are together added being preferably in the range of more than 0.5% by weight, when the reason is that Si is a high manufacturing manganese-based vibration damping steel effective to improve the fluidity of the melt when the melt but, Si is added in excess of 0.5 wt% SiO ₂ This is because inclusions are generated, which hinders the movement of the γ / ε interface, resulting in a decrease in vibration damping performance, excessively high hardness, and poor machinability during processing.

By the fastening structure using the joining member having such high manganese alloy steel material, the steel structure fastening structure by exhausting the vibration generated by the external force at the joint compared to the fastening structure using the carbon steel joining member used for joining and fastening the existing steel structure Improve vibration damping performance.

In addition, the steel structure fastening member and the fastening structure according to the present invention is very excellent in vibration damping performance, so that the longer the length of the steel can solve the problems caused by the characteristics of the steel structure that is vulnerable to vibration. That is, except for the buckling due to the length of the column or the beam self-weight and structural defects due to the joining, it is possible to extend the span, which is the distance between the points by the vibration damping effect at the joint.

Fastening method using the bolt (3) used for fastening the steel structure is the upper and lower plates (1a, 1b) made of high manganese alloy steel material on the end side, the lower side of the member 11 to be fastened, and then FIG. Insert the bolt (3) into the upper washer (4) to pass through the upper and lower plate fastening holes (2a, 2b), and through the lower washer (5) of Figure 2 after passing the nut (6) to the lower plate ( Tightening to the lower surface of 1b).

3 is a view showing a T / S bolt (Torque Shear bolt) and the washer. In the case of the T / S bolt (7) does not use a washer under the head, a pin tail (10) for torque tightening is formed at the end. The fastening method thereof is performed by inserting the upper washer 4 into the T / S bolt 7 and passing the upper and lower plate fastening holes 2a and 2b, and then inserting the nut of FIG. 9) is tightened in the order of tightening to the lower surface of the lower plate (1b) until the fracture groove between the body of the T / S bolt (7) and the pin tail (10) torsionally fractured.

In the steel structure fastened by the fastening members, when vibration is generated by an external element, the most vibration occurs in the joint surface of the fastening member. As in the present invention, a bolt having a high manganese alloy steel material ( 3) and the upper and lower washers (4,5) to the upper and lower plates (1a, 1b) by the structure that can be effectively damped vibration compared to the fastening structure applied with bolts and washers made of carbon steel material. have.

1 is a perspective view showing a plate constituting a steel structure fastening member according to the present invention,

2 is a view showing the assembly structure of the bolt and washer and nut constituting the steel structure fastening member according to the present invention,

3 is a view showing the assembly structure of the T / S bolt and the washer and nut constituting the steel structure fastening member according to the present invention,

4 is a cross-sectional view of a steel structure fastening structure according to the present invention.

♧ description of the symbols for the main parts of the drawing ♧

1: plate 1a: upper plate 1b: lower plate

2: fastening hole 2a: upper plate fastening hole 2b: lower plate fastening hole

3: bolt 4: upper washer 5: lower washer

6: nut 7: T / S bolt 8: washer

9: nut 10: pintail 11: member to be tightened

Claims (5)

The upper plate and the lower plate having at least one fastening hole to be used for fastening the steel structure are disposed so as to be in contact with the upper and lower surfaces of the end side of the member to be fastened, respectively, the bolt is fitted to the upper washer and the fastening hole and the lower of the upper plate Is inserted into the fastening hole of the plate, the lower washer is inserted into the bolt to be in contact with the lower plate has a structure that is fastened by tightening with a nut, the bolt and the upper plate, the lower plate, the upper washer and the lower washer is made of high manganese alloy steel material Steel structure fastening structure with excellent vibration damping ability, characterized in that consisting of. The method according to claim 1, The bolt and the upper plate, the lower plate, the upper washer and the lower washer is by weight% C: 0.1% or less, Si: 0.5% or less, Mn: 15-20% and the rest is made of alloy steel material composed of Fe and other unavoidable impurities Steel structure fastening structure with excellent vibration damping ability, characterized in that configured. In the member for fastening the steel structure, C: 0.1% or less by weight, Si: 0.5% or less, Mn: 15-20%, and the rest is made of a high manganese alloy steel material composed of Fe and other unavoidable impurities for fastening the steel structure with excellent vibration damping ability absence. The method of claim 3, The steel structure fastening member is a steel structure fastening member excellent in vibration damping capability, characterized in that the bolt or washer. The method of claim 3, The steel structure fastening member is a steel structure fastening member having excellent vibration damping capacity, characterized in that the plate formed with at least one fastening hole to be used for fastening the steel structure.

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