KR101144596B1 - Slit Plate Damper - Google Patents

Abstract

The present invention is the first load transfer plate 110 in the form of a rectangular flat plate as a whole; A first buckling preventing plate 111 coupled to the longitudinal direction along the center of the outer surface of the first load transfer plate 110 to be integral with the first load transfer plate 110; A second load transfer plate 120 having an overall rectangular plate shape and positioned to face the first load transfer plate 110 while maintaining a spacing therebetween; A second buckling preventing plate 121 coupled in the longitudinal direction along the center of the outer surface of the second load transfer plate 120 to be integral with the second load transfer plate 120; One side surface is provided with a lower through-hole 126 cut in a "⊥" shape so that the lower end of the first load transfer plate 110 and the first buckling prevention plate 111 protrudes, the other upper surface Lower plate 125 that is integral with the second load transfer plate 120 and the second buckling plate 121 is coupled to the lower end of the second load transfer plate 120 and the second buckling plate 121. ); One surface is provided with an upper through hole 116 cut in a "⊥" shape so that the upper end of the second load transfer plate 120 and the second buckling plate 121 protrudes, the other lower surface The upper plate of the first load transfer plate 110 and the upper end of the first anti-buckling plate 111 is combined to form an integral with the first load transfer plate 110 and the first buckling plate 111 ( 115); And a plurality of slits 131 formed on a surface thereof as a whole and having a rectangular flat plate shape, and both side ends of each of an inner side surface of the first load transfer plate 110 and an inner side surface of the second load transfer plate 120. Is coupled to the longitudinal direction is a slit steel plate damper comprising a; slit steel plate 130 integrally with the first load transfer plate 110 and the second load transfer plate 120.

Slit steel plate, first load transfer plate, second load transfer plate, top plate, bottom plate, first connecting hardware, second connecting hardware, first toggle, second toggle, horizontal steel frame, vertical steel frame

Description

Slit Plate Damper

The present invention relates to a slit steel sheet damper that absorbs seismic energy by using a deformation of the slit steel sheet, and more specifically, a first load transfer plate 110 having a rectangular flat plate shape; A first buckling preventing plate 111 coupled to the longitudinal direction along the center of the outer surface of the first load transfer plate 110 to be integral with the first load transfer plate 110; A second load transfer plate 120 having an overall rectangular plate shape and positioned to face the first load transfer plate 110 while maintaining a spacing therebetween; A second buckling preventing plate 121 coupled in the longitudinal direction along the center of the outer surface of the second load transfer plate 120 to be integral with the second load transfer plate 120; One surface is provided with a lower through-hole 126 cut in a "⊥" shape so that the lower end of the first load transfer plate 110 protrudes through, the other upper surface of the second load transfer plate 120 A lower plate 125 having a lower end coupled to form an integral part with the second load transfer plate 120; One surface is provided with an upper through hole 116 cut in the form of "⊥" so that the upper end of the second load transfer plate 120 protrudes, the other lower surface of the first load transfer plate 110 An upper plate 115 having an upper end coupled to form an integrated body with the first load transfer plate 110; And a plurality of slits 131 formed on a surface thereof as a whole and having a rectangular flat plate shape, and both side ends of each of an inner side surface of the first load transfer plate 110 and an inner side surface of the second load transfer plate 120. Is coupled in the longitudinal direction slit steel plate 130 which is integral with the first load transfer plate 110 and the second load transfer plate 120; characterized in that it comprises a.

Seismic reinforcement method using hydraulic damper and seismic reinforcement method using steel damper are used as seismic reinforcement method of steel structure or concrete structure which is used at home and abroad.

     Among the existing technologies, the seismic reinforcement method using hydraulic dampers is a technology mainly used in Japan, where earthquakes occur frequently throughout the country. The design is relatively improved so that the external environment is not rough, and the seismic reinforcement performance is excellent, but domestic environmental Considering factors, firstly, the construction cost is excessively necessary, and secondly, there is a possibility that the reinforcement will be excessively unnecessary in view of the domestic earthquake frequency or progress.

     Seismic reinforcement method using steel damper is a technology that has been developed at home and abroad recently and it can be said that the construction cost is relatively inexpensive, but it is mainly developed for steel structure reinforcement, and it is also a structural problem of existing steel damper. In the case of structures, the use of windows and entrances, etc. are inconveniently restricted, and the appearance of the product is rough, which not only impairs the aesthetics of the structure, but also causes emotional anxiety, and is applicable to the seismic reinforcement of RC structures with less deformation than steel structures. There is a difficult problem.

Therefore, excessive reinforcement and excessive construction cost, which are the problems of reinforcement method using the existing hydraulic damper, and aesthetic deterioration and emotional anxiety caused by the rough appearance, which is a problem of the existing steel damper, limiting the usability of windows and entrances, limiting the scope of application, etc. There is an urgent need for a new seismic reinforcing device and construction method that can solve the problem and achieve an optimal seismic effect at a reasonable cost.

In order to solve the above-mentioned problems, the object of the present invention is as follows.

First, it is an object of the present invention to provide a seismic reinforcing device that can prevent the refraction of the slit steel plate and to expect a stable seismic reinforcing effect when the seismic load is transmitted.

Second, it is an object of the present invention to provide an earthquake-resistant reinforcement device that can minimize the usability restrictions such as windows and doors when seismic reinforcement of existing building structures.

Third, another object of the present invention is to provide an earthquake-resistant reinforcing device having excellent seismic reinforcing effect even in a RC structure having a relatively small amount of deformation as compared to the steel structure.

Fourth, another object of the present invention is to minimize unnecessary anxiety composition of a user by providing a seismic reinforcing device having a relatively beautiful appearance.

Fifth, it is possible to minimize the damage of the existing building by simply attaching to the inside and outside (window front surface) of the existing building structure, to provide a seismic reinforcement reinforcement device to shorten the air as well as low construction cost. For other purposes.

The configuration of the present invention created to achieve the above object is as follows.

The slit steel sheet damper 100 of the present invention includes a first load transfer plate 110 having a rectangular flat plate shape as a whole; A first buckling preventing plate 111 coupled to the longitudinal direction along the center of the outer surface of the first load transfer plate 110 to be integral with the first load transfer plate 110; A second load transfer plate 120 having an overall rectangular plate shape and positioned to face the first load transfer plate 110 while maintaining a spacing therebetween; A second buckling preventing plate 121 coupled in the longitudinal direction along the center of the outer surface of the second load transfer plate 120 to be integral with the second load transfer plate 120; One side surface is provided with a lower through-hole 126 cut in a "⊥" shape so that the lower end of the first load transfer plate 110 and the first buckling prevention plate 111 protrudes, the other upper surface Lower plate 125 that is integral with the second load transfer plate 120 and the second buckling plate 121 is coupled to the lower end of the second load transfer plate 120 and the second buckling plate 121. ); One surface is provided with an upper through hole 116 cut in a "⊥" shape so that the upper end of the second load transfer plate 120 and the second buckling plate 121 protrudes, the other lower surface The upper plate of the first load transfer plate 110 and the upper end of the first anti-buckling plate 111 is combined to form an integral with the first load transfer plate 110 and the first buckling plate 111 ( 115); And a plurality of slits 131 formed on a surface thereof as a whole and having a rectangular flat plate shape, and both side ends of each of an inner side surface of the first load transfer plate 110 and an inner side surface of the second load transfer plate 120. Is coupled in the longitudinal direction slit steel plate 130 which is integral with the first load transfer plate 110 and the second load transfer plate 120; is configured to include.

Technical effects of the configuration of the present invention are as follows.

First, it is possible to efficiently absorb the seismic energy through the plastic deformation of the slit steel sheet to prevent deformation of the members constituting the structure.

Second, by providing a means for transmitting the movement (strain) of the frame constituting the building frame or building frame due to the earthquake to the slit steel sheet damper can be effectively absorbed seismic energy.

Third, by providing a slit steel sheet damper with a fine appearance, it can induce aesthetics and relieve emotional anxiety.

Fourth, by providing a slit steel sheet damper of the structure that can be easily attached to the inside and outside (window frame, etc.) of the existing structure can be carried out more easily and at a lower cost seismic reinforcement construction of the existing structure.

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

1 shows an assembly process of the slit steel sheet damper 100 and a shape in which assembly is completed, and FIG. 2 shows an embodiment in which two slit steel sheets 130 are arranged side by side, and FIG. The deformation of the slit steel sheet 130 is shown.

The first load transfer plate 110 is a steel sheet in the form of a rectangular flat elongated in one direction.

The first buckling preventing plate 111 is combined with the first load transfer plate 110 in the longitudinal direction along the center of the outer surface of the first load transfer plate 110 to be integral with the first load transfer plate 110, the first load The transfer plate 110 and the first buckling plate 111 is a cross-sectional structure of the "⊥" shape.

The first buckling plate 111 is integrally coupled with the first load transfer plate 110 to increase the strength of the first load transfer plate 110 and to increase the force to resist external forces so that buckling does not occur.

Similar to the first load transfer plate 110, the second load transfer plate 120 is a steel plate having a rectangular flat shape that is elongated in one direction, and is disposed to face the first load transfer plate 110 while maintaining a distance therebetween.

The second anti-buckling plate 121 is coupled to the second load transfer plate 120 in the longitudinal direction along the center of the outer surface of the second load transfer plate 120 to form an integral part with the second load transfer plate 120, the second load The transfer plate 120 and the second buckling plate 121 is a cross-sectional structure of the "⊥" shape.

The second buckling plate 121 is integrally coupled with the second load transfer plate 120 to increase the strength of the second load transfer plate 120 and to increase the force to resist external forces so that buckling does not occur.

The lower plate 125 is a steel plate having a rectangular flat plate shape, as shown in FIG. 1, and protrudes through lower ends of the first load transfer plate 110 and the first anti-buckling plate 111 on one surface of the lower plate 125. The lower through hole 126 cut into a shape of “⊥” is provided, and the lower end of the second load transfer plate 120 and the second buckling prevention plate 121 is welded to the other upper surface of the lower plate 125. It is combined by the method to form an integral with the second load transfer plate 120 and the second buckling plate 121.

As shown in FIG. 1, the upper plate 115 is a steel plate having a rectangular flat plate shape, and an upper end portion of the second load transfer plate 120 and the second anti-buckling plate 121 penetrates to one surface of the upper plate 115. The upper through hole 116 cut in the form of "형태" so as to protrude, and is provided on the lower surface of the other side of the upper plate 115, the upper end of the first load transfer plate 110 and the first anti-buckling plate 111 It is coupled by a method such as welding to form an integral part with the first load transfer plate 110 and the first buckling preventing plate 111.

The slit steel plate 130 has a rectangular flat plate shape as a whole, and a plurality of slits 131 are provided on the surface thereof.

Both ends of the slit steel plate 130 are coupled to the inner surface of the first load transfer plate 110 and the inner surface of the second load transfer plate 120 in the lengthwise direction, and the slit steel plate ( 130 is integral with the first load transfer plate 110 and the second load transfer plate 120.

As shown in FIG. 2, two of the slit steel plates 130 may be arranged side by side in the vertical direction, or three or more quantities may be arranged side by side.

The reinforcement plate 22 is a portion where the upper end of the inner surface of the first load transfer plate 110 and the lower surface of the upper plate 115 meet and the lower end of the inner surface of the second load transfer plate 120 and the upper portion of the lower plate 125. Each of the surfaces meets to form a unit by combining, such as welding, the first, the coupling force of the first load transfer plate 110 and the upper plate 115 and the coupling force of the second load transfer plate 120 and the lower plate 125. It serves to increase and complement.

As shown in FIG. 3, when an external force of a predetermined size or more acts on the first load transfer plate 110 and the second load transfer plate 120 in the coupled state, the slit steel plate 130 is deformed to absorb shocks. do.

4 illustrates a case in which the first connecting hardware 140 and the second connecting hardware 150 are provided.

As shown in FIG. 4, the first connection hardware 140 is bolted to an upper surface (outer surface) of the upper plate 115, and a connection pin hole 11 is provided at one end of the first connection hardware 140. At the other end, a flange 33 for bolting to the upper plate 115 is provided.

As shown in FIG. 4, the second connection hardware 140 is bolted to the lower surface (outer side) of the lower plate 125, and a connection pin hole 11 is provided at one end of the second connection hardware 140. At the other end, a flange 33 for bolting to the lower plate 125 is provided.

The connecting pin hole 11 provided at one end of the first connection hardware 140 and the second connection hardware 150 is pin-coupled to the steel frame portion of the steel structure as shown in FIG. 6 to effectively absorb seismic energy. Can be used.

5 shows (a) the first toggle 160 and the second toggle 170, and (b) shows another embodiment of the first toggle 160 and the second toggle 170.

Each of the first toggle 160 and the second toggle 170 has a long rod shape as a whole, and as shown in FIG. As shown in FIG. 5B, in the case of the first toggle 160, two connection pin holes 11 are provided at one end and one connection pin hole 11 is provided at the other end. It may be.

In the case of FIG. 5A, the connecting pin hole 11 provided at one end of the first toggle 160 and the connecting pin hole 11 provided at one end of the second toggle 170 are respectively connected to the first connecting hardware ( 140 is pinned to be rotatable to the connection pin hole 11 provided in any one of the second connection hardware (150).

5 (b) any one of the two connecting pin holes 11 provided at one end of the first toggle 160 is provided in any one of the first connecting hardware 140 or the second connecting hardware 150. The connecting pin hole 11 is pivotally coupled to the connecting pin hole 11, and the other connecting pin hole 11 provided at one end of the first toggle 160 is provided at one end of the second toggle 170. It is pinned to be rotatable to 11).

The connecting pin hole 11 provided at the other end of each of the first toggle 160 and the second toggle 170 and the connecting pin hole 11 provided at one end of the external cylinder connecting hardware 150 are illustrated in FIG. 7 or FIG. 8. As shown in the pin can be coupled to the steel frame portion of the steel structure can be used to effectively absorb the seismic energy.

6 is an embodiment of a modular product in which the first connecting hardware 140 and the second connecting hardware 150 are coupled to the steel frame constituting the frame of the rectangular shape, the slit steel plate damper 100 inside the rectangular frame ) Two cases are used.

In the steel frame, two horizontal steel frames 180 and two vertical steel frames 190 are welded or bolted, respectively, to form a rectangular frame.

One of the two slit steel sheet dampers 100 is pin-coupled to be rotatable in a central portion of the horizontal steel frame 180 in which the connecting pin hole 11 of the first connecting steel 140 is located. The connection pin hole 11 of 150 is pin-coupled to be rotatable inside a vertex where the lower horizontal steel frame 180 and the vertical steel frame 190 located on the left side meet.

The other one of the two slit steel sheet dampers 100 is pin-coupled to be rotatable in the center of the horizontal steel frame 180 in which the connecting pin hole 11 of the first connecting hardware 140 is located, and the second connecting steel. The connection pin hole 11 of 150 is pin-coupled to be rotatable inside a vertex where the lower horizontal steel frame 180 and the vertical steel frame 190 located on the right side meet.

In other words, as shown in FIG. 6, the connecting pin holes 11 provided in each of the two first connecting hardwares 140 are coupled to the center portion of the horizontal steel frame 180 located above.

Although not shown separately in the accompanying drawings, the connecting pin hole 11 provided in each of the two first connecting hardware 140 may be a structure that is coupled to the center of the horizontal steel frame 180 is located at the bottom, in this case The connecting pin holes 11 provided in each of the second connecting hardware 150 are pin-coupled to each other so as to be rotatable inside the vertices where the horizontal steel frame 180 positioned on the upper side and the vertical steel frame 190 positioned on the left and right sides meet. .

In addition, even if the positions of the first connection hardware 140 and the second connection hardware 150 are replaced with each other, the same configuration will not be described or described separately.

FIG. 7 illustrates an embodiment of a modular product in which a first connecting hardware 140, a first toggle 160, and a second toggle 170 are coupled to a steel frame constituting a rectangular frame. In this case, one slit steel damper 100 is used.

In the steel frame, two horizontal steel frames 180 and two vertical steel frames 190 are welded or bolted, respectively, to form a rectangular frame.

The connecting pin hole 11 provided at the other end of the first toggle 160 and the connecting pin hole 11 provided at the other end of the second toggle 170 are respectively the horizontal steel frame 180 and the vertical steel frame 190. The meeting is pinned to be rotatable inside two vertices diagonally located among the four vertices.

The connecting pin hole 11 provided in the second connecting hardware 150 that is not connected to the first toggle 160 and the second toggle 170 is the connecting pin hole of the first toggle 160 and the second toggle 170. (11) is pinned to be rotatable inside any one of the other two vertices that are not coupled.

In this case, the connecting pin hole 11 of the first toggle 160 and the second toggle 170 may be connected to the connecting pin hole 11 of the second connecting hardware 150, in which case the first connecting hardware 140. The connecting pin hole 11 of the first toggle 160 and the second pin 170, the connecting pin hole 11 of the other two vertices of the other two vertices that are not coupled, the pin is coupled to be rotatable, in this case Also, the same technical configuration will not be described or described separately.

FIG. 8 is an embodiment of a modular product in which a first connecting hardware 140, a first toggle 160, and a second toggle 170 are coupled to a steel frame constituting a rectangular frame. In this case, two slit steel dampers 100 are used.

In the steel frame, two horizontal steel frames 180 and two vertical steel frames 190 are welded or bolted, respectively, to form a rectangular frame.

Two slit steel sheet dampers 100 are used together, one of the two slit steel sheet dampers 100 is combined as follows.

The connecting pin hole 11 provided at the other end of the first toggle 160 is pin-coupled to the center portion of the horizontal steel frame 180 located below.

The connecting pin hole 11 provided in the second connecting hardware 150 and the connecting pin hole 11 provided at the other end of the second toggle 170 are respectively pin-connected so as to be rotatable inside the upper and lower vertices of the left side of the rectangular frame. do.

The other one of the two slit steel sheet dampers 100 is combined as follows.

The connecting pin hole 11 provided at the other end of the first toggle 160 is pin-coupled to the center portion of the horizontal steel frame 180 located below.

The connecting pin hole 11 provided in the second connecting hardware 150 and the connecting pin hole 11 provided at the other end of the second toggle are respectively pinned to be rotatable inside the upper and lower vertices of the right side of the rectangular frame.

In other words, as shown in FIG. 8, the connecting pin hole 11 provided at the other end of each of the two first toggles 160 is coupled to the center portion of the horizontal steel frame 180 located below.

Unlike shown in the accompanying drawings, the first toggle 160 may be rotatably coupled to a central portion of the horizontal steel frame 180 located above, the first connecting hardware 140 and the second connecting hardware 150. ) May be interchanged with each other, but the technical configuration and effects are the same, and thus separate illustration and description are omitted.

The modular product is manufactured according to the size of doors and windows of steel structures or concrete structures requiring seismic reinforcement, and when the seismic reinforcement is required, a rectangular frame can be simply attached to the door or window frame.

As described above, the technical spirit of the present invention has been described with reference to specific embodiments of the present invention, but the protection scope of the present invention is not necessarily limited to these embodiments, and various designs may be made without changing the technical spirit of the present invention. Changes, additions or deletions of well-known technology, and simple numerical limitations also make it clear that they belong to the protection scope of the present invention.

Figure 1 shows the assembly process and assembly of the slit steel sheet damper 100 is completed.

2 shows an embodiment in which the slit steel plates 130 are arranged side by side.

3 shows that deformation of the slit steel plate 130 occurs due to an external force.

4 illustrates a case in which the first connecting hardware 140 and the second connecting hardware 150 are provided.

5 shows (a) the first toggle 160 and the second toggle 170, and (b) shows another embodiment of the first toggle 160 and the second toggle 170.

6 is an embodiment of a modular product in which the first connecting hardware 140 and the second connecting hardware 150 are coupled to the steel frame constituting the frame of the rectangular shape, the slit steel plate damper 100 inside the rectangular frame ) Two cases are used.

FIG. 7 illustrates an embodiment of a modular product in which a first connecting hardware 140, a first toggle 160, and a second toggle 170 are coupled to a steel frame constituting a rectangular frame. In this case, one slit steel damper 100 is used.

FIG. 8 is an embodiment of a modular product in which a first connecting hardware 140, a first toggle 160, and a second toggle 170 are coupled to a steel frame constituting a rectangular frame. In this case, two slit steel dampers 100 are used.

9 is a specific embodiment of the steel frame.

<Description of the symbols for the main parts of the drawings>

100: slit steel damper

110: first load carrier

111: First buckling plate

115: upper plate

116: upper through hole

120: second load carrier

121: 2 buckling prevention plate

125: bottom plate

126: lower through hole

130: slit steel sheet

131: slit

140: first connecting hardware

150: second connecting hardware

160: first toggle

170: second toggle

180: horizontal steel frame

190: vertical steel frame

11: connecting pin hole

22: reinforcement board

33: Flange

Claims (9)

A first load transfer plate 110 having an overall rectangular plate shape; A first buckling preventing plate 111 coupled to the longitudinal direction along the center of the outer surface of the first load transfer plate 110 to be integral with the first load transfer plate 110; A second load transfer plate 120 having an overall rectangular plate shape and positioned to face the first load transfer plate 110 while maintaining a spacing therebetween; A second buckling preventing plate 121 coupled in the longitudinal direction along the center of the outer surface of the second load transfer plate 120 to be integral with the second load transfer plate 120; One side surface is provided with a lower through-hole 126 cut in a "⊥" shape so that the lower end of the first load transfer plate 110 and the first buckling prevention plate 111 protrudes, the other upper surface Lower plates 125 that are coupled to the lower ends of the second load transfer plate 120 and the second buckling plate 121 to be integral with the second load transfer plate 120 and the second buckling plate 121. ); The upper surface of the second load transfer plate 120 and the second buckling plate 121 is provided with an upper through hole 116 cut in the form of "⊥" so as to protrude through, the other lower surface An upper end of the first load transfer plate 110 and the first anti-buckling plate 111 is combined to form an upper plate integral with the first load transfer plate 110 and the first anti-buckling plate 111 ( 115); It has an overall rectangular plate shape, and a plurality of slits 131 are provided on a surface thereof, and both ends of the inner side of the first load transfer plate 110 and the inner side of the second load transfer plate 120 have lengths. A slit steel plate 130 coupled in a direction and integral with the first load transfer plate 110 and the second load transfer plate 120; One end portion is integrally coupled to the upper surface of the upper plate 115 and the other end portion is connected to the first connecting iron hole (11) having a connection pin hole (11); And, One end portion is integrally coupled to the lower surface of the lower plate 125, and the other end of the second connection hardware 150 having a connection pin hole (11); Slit steel sheet damper, characterized in that comprising a. In claim 1, A first toggle 160 having a long rod shape as a whole and having connecting pin holes 11 at both ends thereof; And, A second toggle 170 having a long rod shape as a whole and having connecting pin holes 11 at both ends thereof; Further comprising: The connecting pin hole 11 provided at one end of the first toggle 160 and the connecting pin hole 11 provided at one end of the second toggle 170 are the first connecting hardware 140 or the first, respectively. Slit steel sheet damper, characterized in that the pin is coupled to be rotatable in any one connecting pin hole (11) of the two connecting hardware (150). In claim 1, A first toggle 160 having a long rod shape as a whole and having two connection pin holes 11 at one end and one connection pin hole 11 at the other end; And, A second toggle 170 having a long rod shape as a whole and having connecting pin holes 11 at both ends thereof; One of the two connection pin holes 11 provided at one end of the first toggle 160 is one of the connection pin holes 11 of the first connection hardware 140 or the second connection hardware 150. Pinned to be rotatable to The other one connecting pin hole 11 provided at one end of the first toggle 160 is pivotally coupled to the connecting pin hole 11 provided at one end of the second toggle 170. Slit steel damper. In claim 1, Two horizontal steel frames 180; And, Two vertical steel frame 190; It further includes, each of which is welded or bolted to form a rectangular frame, The two slit steel sheet dampers 100 are used together, Any one of the slit steel sheet damper 100, The connecting pin hole 11 of the first connecting hardware 140 is pin-coupled to be rotatable in the center of any one of the horizontal steel frame 180, The connecting pin hole 11 of the second connecting hardware 150 is vertically located on the left side with the other horizontal steel frame 180 which is not pinned with the connecting pin hole 11 of the first connecting hardware 140. The steel frame 190 is pinned to be rotatable inside the vertex where it meets, The other one of the slit steel sheet damper 100, The connecting pin hole 11 of the first connecting hardware 140 is pin-coupled to be rotatable in the center of any one of the horizontal steel frame 180, The connection pin hole 11 of the second connection hardware 150 is vertically located on the right side with the other horizontal steel frame 180 which is not pin-connected with the connection pin hole 11 of the first connection hardware 140. The steel frame 190 is pinned to be rotatable inside the vertex where the meeting, Slit steel sheet damper, characterized in that the connecting pin holes 11 of the two first connecting hardware 140 is coupled to the central portion of one of the horizontal steel frame (180). 3. The method of claim 2, Two horizontal steel frames 180; And, Two vertical steel frame 190; It further includes, each of which is welded or bolted to form a rectangular frame, The connecting pin hole 11 provided at the other end of the first toggle 160 and the connecting pin hole 11 provided at the other end of the second toggle 170 are respectively the horizontal steel frame 180 and the vertical steel frame. The frame 190 is pinned so as to be rotatable inside two vertices positioned diagonally from each other among the four vertices that meet each other, The connection pin hole 11 provided in the other one of the first connection hardware 140 or the second connection hardware 150 which is not connected to the first toggle 160 and the second toggle 170 is the first connection hardware. Slit steel sheet damper, characterized in that the one toggle 160 and the connecting pin hole (11) of the second toggle 170 is coupled so as to be rotatable inside any one of the two vertices that are not coupled. 3. The method of claim 2, Two horizontal steel frames 180; And, Two vertical steel frame 190; It further includes, each of which is welded or bolted to form a rectangular frame, The two slit steel sheet dampers 100 are used together, Any one of the slit steel sheet damper 100, The connecting pin hole 11 provided at the other end of the first toggle 160 is pin-coupled to be rotatable in any one of the centers of the horizontal steel frame 180, The connection pin hole 11 and the first connector provided in the other one of the first connection hardware 140 or the second connection hardware 150 that are not connected to the first toggle 160 and the second toggle 170. The connecting pin holes 11 provided at the other end of the two toggles 170 are respectively pinned to be rotatable inside the upper and lower vertices of the left side of the rectangular frame. The other one of the slit steel sheet damper 100, The connecting pin hole 11 provided at the other end of the first toggle 160 is pin-coupled to be rotatable in any one of the centers of the horizontal steel frame 180, The connection pin hole 11 and the first connector provided in the other one of the first connection hardware 140 or the second connection hardware 150 that are not connected to the first toggle 160 and the second toggle 170. The connecting pin holes 11 provided at the other end of the two toggles 170 are respectively pinned to be rotatable inside the upper and lower vertices of the right side of the rectangular frame. Slit steel sheet damper, characterized in that the connecting pin hole (11) provided at the other end of the two first toggle 160 is coupled to the central portion of one of the horizontal steel frame (180). In any one of claims 1 to 6, The upper end of the inner surface of the first load transfer plate 110 and the lower surface of the upper plate 115 and the lower end of the inner surface of the second load transfer plate 120 and the upper surface of the lower plate 125 Reinforcing plates 22 which are coupled to each of the meeting portions to form an integrated body; Is included more, The slit steel sheet 130 is a slit steel sheet damper, characterized in that the plurality is arranged side by side in the vertical direction. delete delete

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