KR101323710B1 - strong washer to increase connection force between structural members - Google Patents

Abstract

The present invention relates to a strength washer used in assembling and joining a steel structure, PC structure and PC structure, a plurality of grooves 11 is formed on one surface, the buffer member is formed with a through hole 12 is inserted into the central portion 10; The elastic member (1) comprising a washer (20) formed with a bolt hole (21) having the same size as the through hole (12) corresponding to the other side of the groove (11) of the buffer member (10), The present invention attaches the washer to one side of the shock-absorbing member of the load-bearing washer and forms a circular or slot-shaped hole in the center to overcome the limitations on the tightening force of the bolt when joining the structure to the joint to further strengthen the joint at the same time It relates to a load-bearing washer that can increase the bonding force between the structural members to improve the durability and shock resistance of the.

Description

Strength washer to increase connection force between structural members {strong washer to increase connection force between structural members}

The present invention relates to a strength washer used in assembling and joining steel structures and PC structures. Particularly, in connecting the structure and the structure, the use of the load-bearing washer combined with the buffer member and the washer in the joint part has the advantage of enhancing the joint force of the structure and the structure, and it is also possible to correct the vertical and left and right errors of the joint part. The present invention relates to a load-bearing washer that can increase the bonding force between structural members so as to improve the efficiency and durability and shock resistance of the structure.

Conventionally, when assembling the columns, beams and beams and slabs of a building using precast concrete (PC) members into pre-fabricated PC members, if the error occurs on the vertical line and the horizontal line on the horizontal line, Work to match the position is very inconvenient, and there is also a limit to the tightening force for bolting the joint of the PC column and PC beam or steel beam and steel pillars.

That is, when the joints of PC pillars and PC beams or steel beams and steel pillars with loads of several tens of tons or more are tightened with bolts, the tightening force for bolt contention is limited when fixing only by the normal bolt and nut combination. There is a problem that can no longer narrow the gap of the joint.

As such, when construction is performed with a gap in the construction process using the assembly method of the structure, there is a problem of weakening the durability of the building and being vulnerable to earthquake due to the torsion and loosening of the joint at the stabilization stage after completing the construction of the building. At the same time, there is a problem that acts to shorten the life.

In addition, when looking at the prior art in this field Figure 1 is a cross-sectional view showing a resilient support used in the bridge device for a conventional bridge is installed on the bridge installed between the bridge pier and the upper plate to have a buffering effect on the load This is not to increase the coupling force of the structure, but to buffer the load applied to the top plate from the top, Figure 2 is a cross-sectional view showing the bolt washer used in the conventional PC joint structure, the fastening of the fastening member When the elastic member 160 is elastically deformed (ie, compressive deformed), a pre-stress is formed with respect to the fastening of the fastening member 140 when the fastening member 140 is fastened, thereby fastening the member 140. Resistive acting on

The fastening force of the fastening member 140 may be greatly reduced because it can be reduced. Therefore, the joint strength of the precast column and the precast beam can always be sufficiently secured, and it is possible to prevent the initial deformation during the joining of the precast column and the precast beam, but this occurs within the tolerance range of the PC column. There is a problem in that it is not possible to correct the inclination of the vertical line, Figure 2 is simply a correction due to the deformation of the compressive force when tightening the fastening member is fastening, and the cushioning action and the tilt angle generated when joining the structure and the structure There is a problem that cannot be corrected according to the change.

The present invention relates to a strength washer used when joining a steel structure and a PC structure, and in particular, in the connection between the structure and the structure by using a strength washer combined with a washer and a buffer member at the joint to enhance the bonding force between the structure and the structure. In addition, it is possible to increase the joining force between structural members for the purpose of improving work efficiency, durability and seismic resistance of the structure by simply correcting the vertical error and the horizontal and horizontal errors easily. It is about a load-bearing washer.

The present invention is a configuration in which a high-strength buffer member is attached to one side of a metal washer, and a load-bearing washer having a circular or slot-shaped hole is formed in the center thereof. The present invention provides a tightening force when assembling a steel structure, a PC structure, etc. Overcoming the maximum limit of the limit and correcting the position of the joint caused by the error on the vertical line of the structure, it is easy to connect and improve the durability and workability of the constructed structure, using only bolts and ordinary washers It is to provide a load-bearing washer that can increase the bonding force between structural members to solve the limit for.

The present invention attaches the washer to one side of the shock-absorbing member of the load-bearing washer and forms a circular or slot-shaped hole in the center to overcome the limitations on the tightening force of the bolt when joining the structure to the joint to further strengthen the joint at the same time It has the effect of improving durability and shockproof.

1 is a cross-sectional view showing an elastic support hole used in the bridge device for a conventional bridge.
2 is a cross-sectional view showing a bolt washer used in the conventional PC bonding structure.
Figure 3 is a perspective view of a load-bearing washer showing a state in which the buffer member and the washer of the present invention are separated.
Figure 4 is a sectional view of the load-bearing washer showing a state in which the shock absorbing member and the washer of the present invention are combined.
5 is an exemplary view showing a state in which a structure is coupled using a load bearing of the present invention.
Figure 6 is an exploded perspective view showing a state in which a plurality of grooves formed in a circular shape formed on one surface of the buffer member as another embodiment of the present invention.
Figure 7a is a sectional view of the load-bearing washer in a state showing a plurality of projections on the washer surface corresponding to one surface of the buffer member as another embodiment of the present invention.
Figure 7b is a cross-sectional view showing a state in which the groove is formed in the buffer member surface corresponding to one surface of the washer of the present invention.
Figure 7c is a cross-sectional view showing the elastic member in a state in which both sides of the shock absorbing member of the present invention is formed convex and formed to correspond to the washer on one surface.
Figure 8a is a sectional view of the load-bearing washer showing the state in which the washer of the present invention is formed in the form of a cap and the buffer member is coupled to one side of the concave portion.
Figure 8b is a cross-sectional view showing a state in which the cap-shaped washer bolt hole protruding jaw and the stepped buffer member of the present invention is coupled.
8C is a cross-sectional view illustrating a state in which a space is formed between the washer and the buffer member by forming a recess in the buffer member corresponding to the washer in the coupling structure of FIG. 8A;
Figure 8d is a cross-sectional view showing a state in which the space between the buffer member and the washer when the shock absorbing member in the elastic member of the present invention the plate is a plate on both sides and the corresponding washer to form a recess.
Figure 9 is a cross-sectional view showing a state in which one side is a plate and the other side is formed in a spherical shape in the load-bearing washer of the present invention.

Hereinafter, embodiments of the present invention will be described in detail.

A buffer member 10 having a plurality of grooves 11 formed on one surface thereof, and a through hole 12 into which a bolt is inserted in a central portion thereof;

It consists of a load-bearing washer (1) comprising a washer (20) corresponding to the other side of the groove (11) of the buffer member 10 and a bolt hole (21) having the same size as the through-hole 12 corresponding to the center portion. It is done.

The buffer member is formed on one surface of the groove 11 is characterized in that made of any one of a radial, + -shaped, × -shaped, circular around the through hole (12).

 The washer is characterized in that a plurality of projections 22 are formed on a surface corresponding to one surface of the buffer member.

The buffer member is provided with a recess washer 13 is formed to have a shot on the surface corresponding to the washer and the load-bearing washer (1) formed with a projection 22 on the surface of the washer 20 corresponding to the edge side of the groove (13) Is characterized by the configuration.

The shock absorbing member is formed in a convex shape on both sides, and a washer is formed in a shape corresponding to one surface of the shock absorbing member to be in close contact with the shock absorbing member.

The washer is formed in the form of a cap having a recess 14 on one side and the outer peripheral surface of the rim is formed in the form of a flange (17a), so that the buffer member 10 corresponding to one side is a plate and the other side to correspond to the shape of the recess It is formed by a convex portion, characterized in that the flange 17b is formed on the outer surface of the buffer member.

The washer is characterized in that the protrusion chin 23 is formed in which the inner circumferential surface of the bolt hole 21 extends toward the concave portion 14, and is coupled to one side step 15 of the inner circumferential surface of the through hole 12 of the buffer member.

The buffer member is characterized in that the semi-circular groove 13 is formed in the convex portion corresponding to the washer recessed portion 14 of the cap shape.

The load-bearing washer is formed with one side of the washer concave portion, the other side is formed with a convex portion having an inclined surface, the buffer member corresponding to the washer concave portion is formed on both sides of the plate between the recessed portion of the washer corresponding to one side of the buffer member It is characterized in that the portion 16 is formed to have elasticity.

The load bearing washer is formed in a spherical shape and the other side is formed in a plate surface, characterized in that the semicircular washer corresponds to the surface of the buffer member formed in the spherical shape.

 The buffer member is characterized in that made of any one of rubber, synthetic resin, urethane, fabric.

The through hole of the buffer member and the bolt hole of the washer is characterized in that formed in the slot shape.

The present invention configured as described above will be described in detail with reference to the accompanying drawings.

Figure 3 is a perspective view of a load-bearing washer showing a state in which the buffer member and the washer of the present invention separated, Figure 4 is a cross-sectional view of the load-bearing washer showing a combined state of the buffer member and the washer of the present invention, the present invention is a cushion member in a circular or square To form.

The buffer member may be molded using materials such as rubber, synthetic resin, urethane, and fabrics.

Molding of the gentle member may be molded by pressing a panel-type fabric with a punching machine, or a resin of a material may be molded in a molding mold, or molded into a glass.

The buffer member is used to combine the steel frame and steel frame or to connect the PC column and PC beam is preferably more than 2cm in thickness.

The thickness of the buffer member may vary depending on the structure to be used in various standards.

The buffer member formed as described above is basically formed in a predetermined shape, and then a through hole 12 is formed so that a coupling bolt such as an anchor bolt may be inserted into a central portion, and a washer corresponding to one side of the buffer member 10. 20 also consists of a thickness and elastic strength not to damage the structure.

The washer is manufactured in the same shape as the shape of the buffer member corresponding to one side, the central portion is formed with a bolt hole 21 of the same standard as the through-hole 12 of the buffer member (10).

In addition, the shock absorbing member 10 forms a plurality of grooves 11 on the other side corresponding to the washer, that is, the contacting surface of the structure, so that the shock absorbing member 10 can be firmly coupled by increasing the friction coefficient between the shock absorbing member and the structure surface. do.

In addition, the groove 11 formed on one surface of the buffer member is manufactured in any one of a radial, + -shaped, × -shaped, circular shape on the outer periphery of the through hole 12 may be selectively manufactured as needed.

The groove 11 has a load washer in the process of being in close contact with the surface of the structure corresponding to the corresponding structure by the compressive force is coupled to the groove 11 formed on one surface of the buffer member 10 when the bolt was installed between the structure and the structure and tightened with a bolt. The pressure washer (1) is firmly installed by pressing and supporting and pressing the groove edge corresponding surface.

5 is an exemplary view showing a state in which a structure is coupled using a load bearing of the present invention, showing one embodiment of various embodiments of the present invention.

That is, referring to Figure 5 when the PC beam is coupled to the PC column when the force bearing washer (1) of the present invention between the PC column and the PC beam, and then combined with an anchor bolt (50), such that the bolt is tightened to shrink the buffer member The tension of the tightened bolts is more firmly coupled.

In addition, as the pillar of the building is raised to the upper side, the tolerance occurs, and when joining the beams on the vertical line in the normal bonding method when the gap is generated in the joint or joint, but the elastic member of the present invention PC pillar 30 Inserted between the PC beam 40 and then coupled to be able to correct the errors generated on the vertical and horizontal lines.

Reference numeral 50 in FIG. 5 denotes an anchor bolt member, and reference numeral 51 denotes an anchor bolt nut member.

FIG. 6 is an exploded perspective view showing a state in which a plurality of grooves formed on one surface of a buffer member are formed in a circular shape as another embodiment of the present invention, and FIG. 6 is the same strength washer as that of FIG. The groove 11 is formed in a straight form to form an example of a plurality of circular grooves rather than a radial arrangement.

7A is a cross-sectional view of a load-bearing washer in a state in which a plurality of protrusions are shown on a washer surface corresponding to one surface of a cushioning member, and FIG. 7A shows a groove 11 formed on one surface of the buffer member 10. The side of the washer corresponds to the washer 20, but the corresponding surface of the washer 20 forms a plurality of synchronous to tighten the buffer member 10 with a bolt when the projection 22 of the washer presses the buffer member 10 and the groove of the left member ( 11) is firmly supported because it corresponds to the surface of the structure and increases the coefficient of friction.

7B is a cross-sectional view illustrating a state in which a recess is formed on a surface of a buffer member corresponding to one surface of a washer of the present invention, and the recess 13 having a half groove shape is formed on one surface of the buffer member 10. When the washers correspond to each other and tighten with an anchor bolt or the like, a space portion 16 is formed in the groove and the washer shish. As the buffer member 10 contracts while tightening with the anchor bolt, the recess 13 is contracted together. The coefficient can be increased.

At this time, a plurality of protrusions 22 are formed on one surface of the washer corresponding to the rim of the recess 13 to increase the adhesion between the buffer member and the washer to support the buffer member.

Figure 7c is a cross-sectional view showing a load-bearing washer in a state in which both sides of the shock absorbing member of the present invention is formed convex and formed to correspond to the washer on one surface, so that both sides of the shock absorbing member are formed convex and correspond to the shape of one side thereof. The formed washer 20 corresponds to the shock absorber when the structure is coupled. At this time, both convex surfaces of the shock absorbing member are contracted to have elasticity.

Fig. 8A is a sectional view of a load-bearing washer showing a state in which a washer is formed in a cap shape and the buffer member is coupled to a concave portion on one surface thereof, and a buffer member is formed in a shape corresponding to the concave portion so that one surface of the buffer member is concave. It is inserted into the part and tightly coupled.

The washer shown in Figure 8a is to one side is formed to be concave to improve the tightening force because the washer body is elastic with the shock absorbing member when tightened by the anchor bolt.

Figure 8b is a cross-sectional view showing a state in which the cap-shaped washer bolt hole inner circumferential projection protruding jaw and the step of the buffer member of the present invention is coupled, one end 15 is formed on one side inner wall of the buffer member through hole and the bolt hole 21 of the washer Protruding jaw 23 is formed to further extend to a predetermined size toward the concave portion, and the protruding jaw 23 is coupled to be fitted to the step 15 of the through hole 12 of the cushioning member so that the coupling between the washer and the cushioning member is achieved. It can be improved.

The elastic members of FIGS. 8A and 8B have flanges 17a and 17b formed on the edge of the buffer member 10 and the edge of the washer 20 so that the corresponding supporting force is stable.

8C is a cross-sectional view showing a state in which a space is formed between the washer and the buffer member by forming a recess in the buffer member corresponding to the washer in the coupling structure of FIG. 8A, and corresponding to the recessed portion 14 of the cap washer 20. By forming the recess 13 on the surface of the shock absorbing member 10, it is possible to increase the elastic force and the shock absorbing force when fastening with the anchor bolt.

Figure 8d is a cross-sectional view showing a state in which the space between the buffer member and the washer in the elastic member of the present invention in the elastic member of the present invention, the cushioning member is formed on both sides plate and the corresponding washer is formed in the concave portion, the same effect as Figure 8c By forming a space between the cushioning member and the washer to ensure that the cushioning and elasticity when tightening with the anchor bolt.

Figure 9 is a cross-sectional view showing a state in which one side plate and the other side is formed in a spherical shape in the load-bearing washer of the present invention, when one side of the washer is coupled to form a part of the anchor bolt inlet of the structure. It is formed to be used.

In addition, in the case of Figure 9, one side is a dome shape and the other side is a plate, and the anchor bolt is tightened by tightening the anchor bolt at the dome side. There is. In addition, in the case of the internal pressure washer of FIG. 9, even when an eccentricity is generated in one direction when the earthquake occurs, the seismic force has a seismic force.

1: load bearing 10: shock absorber
11: home 12: through
13: Concave groove 14: Concave
15: step 16: space
17a, 17b: Flange 20: Washer
21: Bolt ball 22: protrusion
23: protrusion 30: PC pillar
40: PC beam 50: anchor bolt
51: anchor nut

Claims (12)

delete delete delete delete delete delete delete A buffer member 10 having a plurality of grooves formed on one surface thereof, and having a through hole through which a bolt is inserted in the center portion; a bolt having the same size as the through hole 12 corresponding to the other side of the groove of the buffer member 10 and corresponding to the center portion; Consists of a load-bearing washer (1) consisting of a washer (20) formed with a ball (21),
The washer is formed in the form of a cap having a recess 14 on one side and the outer peripheral surface of the rim is formed in the form of a flange (17a), the buffer member 10 corresponding to one side is a plate on one side and the shape of the recess 14 on the other side In the load-bearing washer formed with a convex portion so as to correspond to the flange 17b is formed on the outer surface of the buffer member 10,
The shock absorbing member is a load-resistant washer that can increase the bonding force between the structural member, characterized in that the convex portion 13 is formed in the convex portion corresponding to the cap-shaped washer recessed portion (14).
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