KR20080111418A - Steel material damper using load transfer plate and slit plate - Google Patents

Abstract

A steel damper using a load transfer plate and a slit-type steel plate is provided to prevent the deformation of a member of a structure by absorbing earthquake energy with the plastic deformation of a steel damper, and to have an aesthetic effect and to relieve emotional anxiety by providing a steel damper having excellent outward appearance. A steel damper using a load transfer plate and a slit-type steel plate comprises an inner cylinder(110) provided with a lateral cutout portion(111) cut open in the longitudinal direction on right and left sides which face each other, a slit type steel sheet(120) coupled and fixed to the front and rear sides of the inner cylinder as a rectangular flat plate, a load transfer plate(125) provided with a central cutout portion(126) for passing the slit type steel plate in the longitudinal direction and coupled with the slit type steel plate in the crisscross shape after passing through the central cutout portion, and an outer cylinder(130) coupled and fixed with two ends of the load transfer plate passed through the lateral cutout portion.

Description

Steel Material Damper using Load Transfer Plate and Slit Plate

The present invention relates to a steel damper using a load transfer plate and a slit steel plate, and has a tubular shape of a rectangular cross section with an empty inside as a whole, and the side cutouts 111 cut in the longitudinal direction on both left and right sides facing each other An inner cylinder 110 provided; A slit steel plate 120 having a rectangular flat plate and having both ends coupled to front and rear surfaces of the inner cylinder 110; As a rectangular flat plate, both ends thereof pass through the side cutout 111 and protrude to the outside of the inner cylinder 110, and a center cutout 126 through which the slit steel plate 120 passes is longitudinally centered. Is provided as the slit steel plate 120 is passed through the central cutout 126 is coupled to the load transfer plate 125 in the form of a "+"; It has a tubular shape of a rectangular cross section, which is generally hollow inside, is inserted into the outside of the inner cylinder 110, the outer end of the both sides of the load transfer plate 125 passing through the side cutout 111 is fixed and coupled Cylinder 130; characterized in that 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.

The object of the present invention created to solve the above problems is as follows.

First, an object of the present invention is to prevent the deformation of the members constituting the structure by efficiently absorbing seismic energy through the plastic deformation of the steel damper.

Second, it is another object of the present invention to provide a means for amplifying the movement (strain) of the frame constituting the building frame or building frame due to the earthquake and transmitting it to the steel damper effectively.

Third, it is another object of the present invention to provide a steel damper with a fine appearance to solve the emotional anxiety and cause aesthetics.

Fourth, another object of the present invention is to provide a steel damper having a structure that can be easily attached to the inside and outside (window frame, etc.) of the existing structure.

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

The present invention has a tubular shape of a rectangular cross section, which is generally empty inside, the inner cylinder 110 is provided with side cutouts 111 cut in the longitudinal direction on both left and right sides facing each other; A slit steel plate 120 having a rectangular flat plate and having both ends coupled to front and rear surfaces of the inner cylinder 110; As a rectangular flat plate, both end portions pass through the side cutout 111 and protrude to the outside of the inner cylinder 110, and a central cutout 126 through which the slit steel plate 120 passes is a length in the center. A load transfer plate 125 provided in a direction and coupled to the slit steel plate 120 by passing through the central cutout 126 in a “+” shape; It has a tubular shape of a rectangular cross section, which is generally hollow inside, is inserted into the outside of the inner cylinder 110, the outer end of the both sides of the load transfer plate 125 passing through the side cutout 111 is fixed and coupled The cylinder 130; is configured to include.

Technical effects according to 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 steel damper to prevent deformation of the members constituting the structure.

Second, it is possible to effectively absorb the seismic energy by providing a means for amplifying the movement (strain) of the frame constituting the building frame or building frame due to the earthquake and transmitting it to the steel damper.

Third, the steel damper with a fine appearance can be provided to induce aesthetics and relieve emotional anxiety.

Fourth, by providing a steel damper having a 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 more detail with reference to the accompanying drawings. (In the case of the connecting pin hole 11, the flange 22, and the coupling groove 33, the same reference numerals are used for the convenience of the substrate. )

The inner cylinder 110 has a tubular shape of a rectangular cross-section that is entirely hollow as shown in FIG. 1 (a), and side cut portions 111 which are cut in the longitudinal direction are provided on both left and right sides facing each other. do.

The inner cylinder 110 may be manufactured by welding four rectangular flat plates as shown in FIG. 1 (a). The load transfer plate 125 coupled in the form is manufactured by assembling together in the inner cylinder 110.

The slit steel plate 120 is a rectangular flat plate, and both ends thereof are fixed to the inner surface of the front and rear surfaces of the inner cylinder 110 by welding or the like.

As shown in FIG. 1 (a), the slit steel plate 120 includes a plurality of slits 121 cut in the transverse direction and arranged in two rows in the longitudinal direction, and the center portion of the slits 121 forming two rows. The load transfer plate 125 is coupled to cross the cross-section so that the slits 121 are arranged on the left and right sides of the load transfer plate 125.

The slit steel plate 120 absorbs seismic energy by generating plastic deformation when an earthquake occurs.

The load transfer plate 125 is a rectangular flat plate, and both ends thereof pass through the side cutout 111 to protrude to the outside of the inner cylinder 110.

In addition, the center of the load transfer plate 125 is provided with a central incision 126 cut in the longitudinal direction, the slit steel plate 120 is coupled in the form of a "+" through the central incision 126.

As illustrated in FIG. 1A, the outer cylinder 130 has a tubular shape of a rectangular cross section with an empty inside, and is inserted into the outside of the inner cylinder 110.

It is fixed to the inner surface of the outer cylinder 130 at both ends of the load transfer plate 125 through the side cut 111 is fixed by welding or the like.

In the case of the outer cylinder 130, as in the inner cylinder () can be produced by welding four rectangular flat plate, in the case of manufacturing in this way both sides of the load transfer plate 125 in the coupling groove 33 of the outer cylinder 130 By welding in the state where the end is inserted, the load transfer plate 125 is fixed to the outer cylinder 130.

Therefore, the inner cylinder 110 and the outer cylinder 130 are connected to one through the slit steel plate 120 and the load transfer plate (125).

The load transfer plate 125 serves to transfer the load between the inner cylinder 110 and the outer cylinder 130 and prevents sudden buckling of the slit steel plate 120.

In the state as shown in Figure 1 (b) and the inner cylinder 110 and the outer cylinder 130 is pulled the inner cylinder 110 in the upward direction and the outer cylinder 130 pulls in the downward direction, or vice versa When the inner cylinder 110 is pushed downward and the outer cylinder 130 is pushed upward, plastic deformation of the slit steel plate 120 occurs, and the plastic deformation effectively absorbs the impact energy caused by the earthquake. Done.

As shown in FIG. 2, the outer cylinder cap 132 is coupled to one end portion in the longitudinal direction of the outer cylinder 130 by welding or the like, and the inner cylinder cap 112 is not coupled to the outer cylinder cap 132. It is coupled to one end of the inner cylinder 110 exposed to the other end in the longitudinal direction of the outer cylinder 130, such as by welding.

The inner cylinder connecting hardware 140 is bolted to the outer surface of the inner cylinder cap 112, as shown in Figure 3, one end of the inner cylinder connecting hardware 140 is provided with a connecting pin hole 11, the other side At the end, a flange 22 for bolting to the inner cylinder cap 112 is provided.

The outer cylinder connecting hardware 150 is bolted to the outer surface of the outer cylinder cap 132, as shown in Figure 3, one end of the outer cylinder connecting hardware 150 is provided with a connecting pin hole 11, the other side At the end, a flange 22 for bolting to the outer cylinder cap 132 is provided.

The first strain amplification toggle 160 and the second strain amplification toggle 170 may each have a shape in which one connecting pin hole 11 is provided at each of both ends thereof, as shown in FIG. As shown in b), the first strain amplification toggle 160 may have a shape in which two connection pin holes 11 are provided at one end and one connection pin hole 11 is provided at the other end.

As shown in FIG. 5 (a), the connecting pin hole 11 provided at one end of the first strain amplification toggle toggle 160 and the connecting pin hole 11 provided at one end of the second strain amplification toggle toggle 170 are provided. Each of the two pins are pivotally coupled to the connecting pin holes 11 of the inner cylinder connecting hardware 140, or provided at one end of the first strain amplification toggle 160, as shown in FIG. Any one of the pin holes 11 is pin-coupled to the connecting pin hole 11 of the inner cylinder connecting hardware 140 so as to be rotatable, and the other connecting pin hole 11 provided at one end of the first strain amplification toggle toggle 160. ) Is pivotally coupled to the connecting pin hole 11 provided at one end of the second strain amplification toggle 170.

The connecting pin hole 11 provided at the other end of each of the first strain amplification toggle toggle 160 and the second strain amplification toggle toggle 170 and the outer cylinder connecting hardware 150 is provided at one end of the steel frame. 6 to 11 can be pinned to the steel frame portion of the structure in the same manner as in Figure 6 can be used to effectively absorb the seismic energy.

FIG. 6 shows two horizontal steel frame 180 and two vertical steel frame 190, both ends of which are welded or bolted to form a rectangular frame, and a reciprocating slit steel damper 100) ) It is a modular product, two of which are combined inside a rectangular frame.

The reciprocating slit steel damper 100 used here is provided with only the outer cylinder connecting hardware 150 and the inner cylinder connecting hardware 140 without the first strain amplification toggle toggle 160 and the second strain amplification toggle toggle 170 attached thereto. Form is used.

One of the reciprocating slit steel dampers 100 (left side of the drawing) is a pin so that the connecting pin hole 11 of the outer cylinder connecting hardware 150 can be rotated in the center of the horizontal steel frame 180 located in the upper portion of the drawing. Coupling, the connecting pin hole 11 of the inner cylinder connecting hardware 140 is a pin so as to be rotated inside the corner where the horizontal steel frame 180 and the vertical steel frame 190 located on the left side of the drawing meets. Combined.

The other one of the reciprocating slit steel damper 100 (the right side in the drawing) is a pin so that the connecting pin hole 11 of the outer cylinder connecting hardware 150 can be rotated at the center of the horizontal steel frame 180 located in the upper part of the drawing. The connecting pin hole 11 of the inner cylinder connecting hardware 140 is pinned to be rotatable inside the corner where the horizontal steel frame 180 located at the bottom of the drawing and the vertical steel frame 190 located at the right meet. .

Accordingly, the connecting pin holes 11 of the two outer cylinder connecting hardware 150 are coupled to the center of the horizontal steel frame 180 located in the upper portion of the drawing so that the two reciprocating slit steel dampers 100 each have a triangular hypotenuse. It becomes the form to form.

FIG. 7 shows two horizontal steel frames 180 and two vertical steel frames 190 each being welded or bolted to form a rectangular frame, and one reciprocating slit steel damper 100 is rectangular. It is a modular product combined inside the frame.

In the case of the reciprocating slit steel damper 100 used herein, the first strain amplification toggle toggle 160 and one side end of the second strain amplification toggle toggle 170 are provided in the connection pin hole 11 of the inner cylinder connecting hardware 140. The connection pin hole 11 is rotatably pinned form is used.

The connecting pin hole 11 provided at the other end of the first strain amplification toggle toggle 160 and the connecting pin hole 11 provided at the other end of the second strain amplification toggle toggle 170 are respectively a horizontal steel frame 180 and a vertical steel frame. Each of the four corners of the frame 190 is pinned to be rotatable inside two corners positioned diagonally to each other.

The connecting pin hole 11 of the external cylinder connecting hardware 150 has any one of the other two corners in which the connecting pin hole 11 of the first strain amplification toggle toggle 160 and the second strain amplification toggle toggle 170 is not coupled. It is pinned to be rotatable inside.

8 shows two horizontal steel frames 180 and two vertical steel frames 190 are welded or bolted to form a rectangular frame, and two reciprocating slit steel dampers 100 are rectangular. It is a modular product combined inside the frame.

In the case of the reciprocating slit steel damper 100 used herein, the first strain amplification toggle toggle 160 and one side end of the second strain amplification toggle toggle 170 are provided in the connection pin hole 11 of the inner cylinder connecting hardware 140. The connection pin hole 11 is rotatably pinned form is used.

In any one of the reciprocating slit steel dampers 100 (left side of the drawing), the connecting pin hole 11 provided at the other end of the first strain amplification toggle 160 is rotated at the center of any one of the horizontal steel frame 180. The pins are coupled to each other, and the connecting pin holes 11 provided at the other ends of the connecting pin holes 11 and the second strain amplification toggle 170 of the outer cylinder connecting hardware 150 are respectively formed inside the upper and lower corners of the left side of the frame of the rectangular shape. Each is pinned to be rotatable.

The other one of the reciprocating slit steel dampers 100 (the right side in the drawing) has a connecting pin hole 11 provided at the other end of the first strain amplification toggle 160, which is rotated at the center of any one of the horizontal steel frames 180. The pins are coupled to each other, and the connecting pin holes 11 provided at the other ends of the connecting pin holes 11 and the second strain amplification toggle 170 of the outer cylinder connecting hardware 150 are respectively formed inside the upper and lower right corners of the rectangular frame. The pins are rotatably coupled to each other, wherein the connecting pin holes 11 provided at the other ends of the two first strain amplification amplification 160s meet at the center of the horizontal steel frame 180 and are coaxially coupled to each other.

9 is pinned so that both ends of each of the two horizontal steel frame 180 and two vertical steel frame 190 is rotatable to form a rectangular frame, and one reciprocating slit steel damper 100 is It is a modular product combined inside a rectangular frame.

In the case of the reciprocating slit steel damper 100 used herein, the first strain amplification toggle toggle 160 and one side end of the second strain amplification toggle toggle 170 are provided in the connection pin hole 11 of the inner cylinder connecting hardware 140. The connection pin hole 11 is rotatably pinned form is used.

The connecting pin hole 11 provided at the other end of the first strain amplification toggle toggle 160 and the connecting pin hole 11 provided at the other end of the second strain amplification toggle toggle 170 are a horizontal steel frame 180 and a vertical steel frame. One of the four corners at which the 190 meets is pinned to be rotatable to each of the two corner pinning portions positioned diagonally to each other.

In other words, the connecting pin hole 11 of the first strain amplification toggle toggle 160 or the connecting pin hole 11 of the second strain amplification toggle 170 is connected to the pin where the horizontal steel frame 180 and the vertical steel frame 190 are coupled. It is a structure that is joined together.

The connecting pin hole 11 of the external cylinder connecting hardware 150 has any one of the other two corners in which the connecting pin hole 11 of the first strain amplification toggle toggle 160 and the second strain amplification toggle toggle 170 is not coupled. It is pin-bonded so that rotation to a pin-binding site is possible.

10 is a pin-shaped so that both ends of each of the two horizontal steel frame 180 and two vertical steel frame 190 is rotatable to form a rectangular frame, two reciprocating slit steel damper 100 2 The dog is a modular product that is combined inside a rectangular frame.

In the case of the reciprocating slit steel damper 100 used herein, the first strain amplification toggle toggle 160 and one side end of the second strain amplification toggle toggle 170 are provided in the connection pin hole 11 of the inner cylinder connecting hardware 140. The connection pin hole 11 is rotatably pinned form is used.

One of the reciprocating slit steel dampers 100 (left side of the drawing) of the horizontal steel frame 180 in which the connecting pin hole 11 provided at the other end of the first strain amplification toggle toggle 160 is located in the lower part of the drawing. The pins are pivotally coupled to the center portion, and the connecting pin holes 11 at the other ends of the connecting pin holes 11 and the second strain amplification toggle 170 of the external cylinder connecting hardware 150 are respectively formed on the upper and lower left and right sides of the rectangular frame. It is pinned so as to be rotatable to each of the edge pinning portions.

The other one of the reciprocating slit steel dampers 100 (the right side in the drawing) is a horizontal steel frame 180 having a connecting pin hole 11 provided at the other end of the first strain amplification toggle toggle 160 located at a lower portion of the drawing. The connecting pin hole 11 is pivotally coupled to the center of the connecting pin hole 11 at the other end of the connecting pin hole 11 and the second strain-amplifying amplification 170 of the external cylinder connecting hardware 150, respectively. Pin-coupling is rotatably connected to each of the upper and lower corner pin coupling portion, the connecting pin hole 11 provided at the other end of the two first strain amplification toggle 160 160 is coaxial in the center of the horizontal steel frame 180 located below Is coupled to the phase.

FIG. 11 shows that two horizontal steel frames 180 and two vertical steel frames 190 have both ends welded or bolted to form a rectangular frame, and one reciprocating slit steel damper 100 is provided. It is a modular product combined inside a rectangular frame.

In the case of the reciprocating slit steel damper 100 used herein, the first strain amplification toggle toggle 160 and one side end of the second strain amplification toggle toggle 170 are provided in the connection pin hole 11 of the inner cylinder connecting hardware 140. The connecting pin hole 11 is rotatably pin-connected, unlike the other products of the type shown in Figure 5 (b) is used.

The connecting pin hole 11 provided at the other end of the first strain amplification toggle toggle 160 and the connecting pin hole 11 provided at the other end of the second strain amplification toggle toggle 170 are a horizontal steel frame 180 and a vertical steel frame. Each of the four corners 190 are pin-coupled to be rotatable inside two corners positioned diagonally to each other, and the connecting pin holes 11 of the outer cylinder connecting hardware 150 are first strain amplification toggles 160. And a connecting pin hole 11 of the second strain amplifying toggle 170 is pivotally coupled to one of the corners of the other two corners which are not coupled.

The modular product is manufactured according to the size of the entrance or window of a steel structure or concrete structure that requires seismic reinforcement, and when a 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 (a) is an exploded perspective view showing the coupling structure of the slit steel plate 120, the load transfer plate 125, the inner cylinder 110, and the outer cylinder 130, Figure 1 (b) is assembled The state and cross-sectional structure are shown.

2 shows a state in which the outer cylinder cap 132 and the inner cylinder cap 112 are coupled to one end of the outer cylinder 130 and one end of the inner cylinder 110, respectively.

3 illustrates a state in which the outer cylinder connecting hardware 150 and the inner cylinder connecting hardware 140 are coupled to each other.

Figure 4 shows (a) the first strain amplification toggle 160 and the second strain amplification toggle 170, (b) is another of the first strain amplification toggle toggle 160 and second strain amplification toggle 170 An example is shown.

5 (a) and 5 (b) show specific embodiments in which the first strain amplification toggle 160 and the second strain amplification toggle 170 are coupled to the inner cylinder connecting hardware 140, respectively.

Figure 6 is an embodiment of the modular product by combining the outer cylinder connecting hardware 150 and the inner cylinder connecting hardware 140 in a steel frame constituting a rectangular frame, the load transfer plate and the slit inside the rectangular frame In this case, two steel dampers 100 using steel sheets are used.

FIG. 7 illustrates an embodiment of a modular product in which an external cylinder connecting hardware 150, a first strain amplification toggle toggle 160, and a second strain amplification toggle toggle 170 are coupled to a steel frame forming a rectangular frame. In the case of a steel damper 100 using a load transfer plate and a slit steel plate in the form of the frame is used.

8 illustrates an embodiment of a modular product in which an external cylinder connecting hardware 150, a first strain amplification toggle toggle 160, and a second strain amplification toggle toggle 170 are coupled to a steel frame forming a rectangular frame. It is the case that two steel dampers 100 using a load transfer plate and a slit steel plate are used inside the frame.

9 is pin-bonded to be rotatable steel frame constituting a square-shaped frame, the outer cylinder connecting hardware 150, the first strain amplification toggle 160 and the second strain amplification toggle 170 is coupled to An embodiment of the modular product, in the case of using a steel damper 100 using a load transfer plate and a slit steel plate in a rectangular frame.

10 is pin-bonded to be rotatable steel frame constituting the frame of the rectangular form, the outer cylinder connecting hardware 150, the first strain amplification toggle 160 and the second strain amplification toggle 170 is coupled An embodiment of the modular product, in the case of using two steel dampers (100) using a load transfer plate and a slit steel plate in a rectangular frame.

11 is pin-bonded to be rotatable steel frame constituting a square-shaped frame, the outer cylinder connecting hardware 150, the first strain amplification toggle 160 and the second strain amplification toggle 170 is coupled An embodiment of a modular product, in which a steel damper 100 using a load transfer plate and a slit steel plate is used in a rectangular frame, different from the shape of the first strain amplification amplifier 160 as shown in FIG. have.

Figure 12 shows the deformation of the steel damper 100 and the building frame frame using the load transfer plate and the slit steel plate in the event of an earthquake, the building frame frame swings in the lateral direction but point B compared to point A compared to point C Shows that the travel distance of is amplified 2-3 times. This amplified motion causes plastic deformation of the steel damper 100 using the load transfer plate and the slit steel plate, and effectively absorbs seismic energy through the plastic deformation.

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

100: steel damper using load transfer plate and slit steel plate

110: inner cylinder

111: Lateral incision

112: inner cylinder cap

120: slit steel sheet

121: Slit

125: load carrier

126: central incision

130: outer cylinder

132: outside cylinder cap

140: inner cylinder connecting hardware

150: external cylinder connecting hardware

160: first strain amplification toggle

170: second strain amplification toggle

180: horizontal steel frame

190: vertical steel frame

11: connecting pin hole

22: Flange

33: coupling groove

Claims (12)

An inner cylinder 110 having a tubular shape of a rectangular cross section with an empty inside, and having side cutouts 111 cut in the longitudinal direction on both left and right sides facing each other; A slit steel plate 120 having a rectangular flat plate and having both ends coupled to front and rear surfaces of the inner cylinder 110; As a rectangular flat plate, both ends thereof pass through the side cutout 111 and protrude to the outside of the inner cylinder 110, and a center cutout 126 through which the slit steel plate 120 passes is longitudinally centered. Is provided as the slit steel plate 120 is passed through the central cutout 126 is coupled to the load transfer plate 125 in the form of a "+"; It has a tubular shape of a rectangular cross section, which is generally hollow inside, is inserted into the outside of the inner cylinder 110, the outer end of the both sides of the load transfer plate 125 passing through the side cutout 111 is fixed and coupled Cylinder 130; Steel damper using a load transfer plate and a slit steel plate, characterized in that comprising a. In claim 1, An outer cylinder cap 132 coupled to one end portion of the outer cylinder 130 in the longitudinal direction; And, An inner cylinder cap 112 coupled to one end of the inner cylinder 110 exposed to the other end portion in the longitudinal direction of the outer cylinder 130 in which the outer cylinder cap 132 is not coupled; Steel damper using a load transfer plate and a slit steel plate, characterized in that further comprises. The method of claim 1 or 2, The slit steel plate 120 is a steel damper using a load transfer plate and a slit steel plate, characterized in that the plurality of slits 121 are cut in the transverse direction are arranged in two rows in the longitudinal direction. In claim 3, An inner cylinder connecting hardware 140 having a connecting pin hole 11 is coupled to an outer surface of the inner cylinder cap 112, Steel damper using a load transfer plate and a slit steel plate, characterized in that the outer cylinder connecting hardware 150 is provided with a connecting pin hole 11 is coupled to the outer surface of the outer cylinder cap (132). In claim 4, A first strain amplification toggle 160 having a connecting pin hole 11 at each end; And, A second strain amplification toggle 170 provided with connecting pin holes 11 at both ends; More, The connecting pin hole 11 provided at one end of the first strain amplification toggle toggle 160 and the connecting pin hole 11 provided at one end of the second strain amplification toggle toggle 170 are respectively connected to the inner cylinder connecting hardware 140. Steel damper using a load transfer plate and a slit steel plate, characterized in that the pin is rotatably coupled to the connecting pin hole (11). In claim 4, A first strain amplification toggle 160 having one connection pin hole 11 at one end and one connection pin hole 11 at the other end; And, A second strain amplification toggle 170 provided with connecting pin holes 11 at both ends; One of two connection pin holes 11 provided at one end of the first strain amplification toggle toggle 160 is pin-coupled to the connection pin hole 11 of the inner cylinder connecting hardware 140 to be rotatable, The other one connecting pin hole 11 provided at one end of the first strain amplification toggle toggle 160 is pivotally coupled to the connecting pin hole 11 provided at one end of the second strain amplification toggle toggle 170. Steel damper using a load transfer plate and a slit steel plate. In claim 4, 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, Two steel dampers 100 using the load transfer plate and the slit steel plate are used together, Any one of the steel damper 100 using the load transfer plate and the slit steel plate, The connecting pin hole 11 of the outer cylinder connecting hardware 150 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 inner cylinder connecting hardware 140 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 outer cylinder connecting hardware 150. Steel frame 190 is pinned to be rotatable inside the corner that meets, The other one of the steel damper 100 using the load transfer plate and the slit steel plate, The connecting pin hole 11 of the outer cylinder connecting hardware 150 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 inner cylinder connecting hardware 140 is vertically located on the right side with the other horizontal steel frame 180 which is not pinned with the connecting pin hole 11 of the outer cylinder connecting hardware 150. The steel frame 190 is pinned to be rotatable inside the corner that meets, The connecting pin holes 11 of the two outer cylinder connecting hardware 150 are coupled to the central portion of the horizontal steel frame 180 so that the steel dampers 100 using the two load transfer plates and the slit steel plates are each triangular. Steel damper using a load transfer plate and a slit steel plate, characterized in that the form of the hypotenuse. In claim 5, 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 strain amplification toggle toggle 160 and the connecting pin hole 11 provided at the other end of the second strain amplification toggle toggle 170 are provided with the horizontal steel frame 180. The vertical steel frame 190 is pinned to be rotatable in each of the two corners located diagonally from each other among the four corners that meet, The connection pin hole 11 of the external cylinder connecting hardware 150 is any one of the other two corners in which the connection pin hole 11 of the first strain amplification toggle toggle 160 and the second strain amplification toggle toggle 170 are not coupled. Steel damper using a load transfer plate and a slit steel plate, characterized in that the pin coupled to the inside of one corner to be rotatable. In claim 5, 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, Two steel dampers 100 using the load transfer plate and the slit steel plate are used together, Any one of the steel damper 100 using the load transfer plate and the slit steel plate, The connecting pin hole 11 provided at the other end of the first strain amplification toggle toggle 160 is pin-coupled to the center of any one of the horizontal steel frame 180 to be rotatable, The connecting pin holes 11 and the connecting pin holes 11 provided at the other ends of the second strain-amplification amplification toggle 170 of the external cylinder connecting hardware 150 are respectively rotatable inside the upper left and lower corners of the rectangular frame. Pin-coupled, The other one of the steel damper 100 using the load transfer plate and the slit steel plate, The connecting pin hole 11 provided at the other end of the first strain amplification toggle toggle 160 is pin-coupled to the center of any one of the horizontal steel frame 180 to be rotatable, The connecting pin holes 11 and the connecting pin holes 11 provided at the other ends of the second strain amplification toggle toggle 170 of the external cylinder connecting hardware 150 are respectively rotatable inside the upper right and lower corners of the rectangular frame. Pinned, Using a load transfer plate and a slit steel plate, characterized in that the connecting pin hole 11 provided at the other end of the two first strain amplification toggle toggle 160 is coaxially coupled to the central portion of the horizontal steel frame 180 Steel damper. In claim 6, Two horizontal steel frames 180; And, Two vertical steel frame 190; It further includes, each of the both ends are pinned to be rotatable to form a rectangular frame, The connecting pin hole 11 provided at the other end of the first strain amplification toggle toggle 160 and the connecting pin hole 11 provided at the other end of the second strain amplification toggle toggle 170 are provided with the horizontal steel frame 180. The vertical steel frame 190 is pinned so as to be rotatable to each of the two corner pin engaging portions positioned diagonally from each other among the four corners that meet, The connection pin hole 11 of the external cylinder connecting hardware 150 is any one of the other two corners in which the connection pin hole 11 of the first strain amplification toggle toggle 160 and the second strain amplification toggle toggle 170 are not coupled. Steel damper using a load transfer plate and a slit steel plate, characterized in that the pin is rotatably coupled to one corner pin coupling portion. In claim 5, Two horizontal steel frames 180; And, Two vertical steel frame 190; It further includes, each of which is pinned to be rotatable to form a rectangular frame, Two steel dampers 100 using the load transfer plate and the slit steel plate are used together, Any one of the steel damper 100 using the load transfer plate and the slit steel plate, The connecting pin hole 11 provided at the other end of the first strain amplification toggle toggle 160 is pin-coupled to the center of any one of the horizontal steel frame 180 to be rotatable, The connecting pin holes 11 and the connecting pin holes 11 provided at the other ends of the second strain-amplifying amplification toggle 170 of the outer cylinder connecting hardware 150 are respectively rotated to the upper and lower corner pin coupling portions of the rectangular frame. Pinned as possible, The other one of the steel damper 100 using the load transfer plate and the slit steel plate, The connecting pin hole 11 provided at the other end of the first strain amplification toggle toggle 160 is pin-coupled to the center of any one of the horizontal steel frame 180 to be rotatable, The connecting pin holes 11 and the connecting pin holes 11 provided at the other ends of the second strain-amplifying amplification toggle 170 of the external cylinder connecting hardware 150 are respectively rotated to the upper and lower corner pin coupling portions of the rectangular frame. Pinned as much as possible, Using a load transfer plate and a slit steel plate, characterized in that the connecting pin hole 11 provided at the other end of the two first strain amplification toggle toggle 160 is coaxially coupled to the central portion of the horizontal steel frame 180 Steel damper. In claim 6, 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 strain amplification toggle toggle 160 and the connecting pin hole 11 provided at the other end of the second strain amplification toggle toggle 170 are respectively the horizontal steel frame 180. And the vertical steel frame 190 is pinned to be rotatable in each of the two corners located on the diagonal of each other among the four corners that meet, The connection pin hole 11 of the external cylinder connecting hardware 150 is any one of the other two corners in which the connection pin hole 11 of the first strain amplification toggle toggle 160 and the second strain amplification toggle toggle 170 are not coupled. Steel damper using a load transfer plate and a slit steel plate, characterized in that the pin coupled to the inside of one corner to be rotatable.

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