KR101973336B1 - Wall-like structure for aseismatic reinforcement - Google Patents

Abstract

The present invention relates to a wall structure for seismic reinforcement. An objective of the present invention is to arrange support bars of a damper in an outer frame of a wall making up a wooden house in an X-shape, and arrange the ends of the support bars on the corners of the outer frame to perform a support role to suppress shaking of the wall by the support bars when an impact of a seismic wave reaches the wall. To achieve the objective, a wall structure for seismic reinforcement constructs a wall (6) comprising: an outer frame (10) formed in a rectangular shape; a plurality of partition plates (12) vertically installed in the outer frame (10) and separated from each other; a damper (2) which is installed in the outer frame and suppresses a wall (6) from being shaken by an impact of a seismic wave; and a cover plate (54) fixed and installed on a front and a rear surface of the outer frame (10). Support bars (26) are installed on the damper (2) in an X-shape in the outer frame (10). The ends of the support bars (26) are arranged on the corners of the outer frame (10). The support bars (26) are installed through the partition plates (12).

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to wall-like structure for aseismatic reinforcement,

More particularly, the present invention relates to a wall structure for an anti-seismic reinforcement, and more particularly, to a wall structure for an anti-seismic reinforcement, in which a support bar of a damper is arranged in an X shape inside an outer frame of a wall body constituting a wooden house, So that the rocking of the wall surface body can be suppressed by the support rods when the impact of the seismic waves reaches the wall surface body.

The upper and lower hubs constituting the damper are coupled to each other by a hinge rod so as to rotate together with the support rod. By rotating the upper and lower hubs according to the size of the wall body to adjust the tilt of the support rod, To a wall surface structure for an earthquake-proof reinforcement capable of applying a damper to a wall surface body.

Generally, when a P wave (longitudinal wave), an S wave (transverse wave), and an L wave (surface wave), which are seismic waves, reach the building, the wall body is shaken by impact and is broken. In order to protect the building from such a seismic wave, However, cracks and fractures still occur partially in the building.

Therefore, in recent years, means for suppressing the shaking motion of a building caused by seismic waves have been developed.

On the other hand, the prior art KR 10-1270097 B1 2013.05.27. 1A and 1B, the steel frame 10 is vertically installed between the horizontal structural body S1 and the vertical structural body S2 constituting the inside of the building, while dividing the inner space into two halves. do.

The steel frame 10 is installed while arranging the inner frame 12 in a lattice pattern shape inside the frame frame 11. The storage frame 22 is installed in the lattice pattern space created by the inner frame 12 So that the door 21 is mounted.

When the steel frame 10 is installed in the interior space of the building as described above, when the P waves (longitudinal waves), S waves (transverse waves), and L waves (surface waves), which are seismic waves, reach the building, At this time, the frame 11 and the inner frame 12 provided in a lattice pattern support the impact of the seismic waves.

In the above conventional art, since the inner frame 12 and the frame 11 installed in a lattice pattern form a shock of a seismic wave, the building is cracked or broken. There is a problem that the frame 10 can not be safely protected.

Korean Registered Patent No. 10-1270097 (Registered on May 27, 2013)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art as described above, and its object is as follows.

First, the support rods of the damper are arranged in an X-shape inside the outer frame of the wall body constituting the wooden house, and the end portions of the support rods are respectively arranged at the corners of the outer frame to support the shock. So that the swinging motion of the wall surface body is suppressed by the support rods.

Second, the upper and lower hubs constituting the damper are coupled with the hinge rods so as to rotate together with the support rods. By rotating the upper and lower hubs according to the size of the wall body to adjust the inclination of the support rods, It is intended to dramatically improve the functionality and practicality of being able to apply the damper to the wall body.

In the present invention, first, an outer frame 10 formed in a rectangular shape,

A plurality of longitudinally spaced partition plates 12 spaced apart from each other in the outer frame 10,

A damper 2 installed inside the outer frame 10 to suppress rocking of the wall body 6 due to a shock of a seismic wave,

In the seismic strengthening wall surface structure constituting the wall surface member 6 by the lid plate 54 fixed to the front and rear surfaces of the outer frame 10,

The damper 2 is constructed in such a manner that a support rod 26 is installed inside the outer frame 10 in the shape of an X. The support rods 26 are respectively disposed at the corners of the outer frame 10, 26) are installed so as to penetrate through the partition plate (12).

The upper and lower hubs 16 and 18 are installed at the center of the outer frame 10 while passing through the through holes 20. The upper and lower hubs 16 and 18 are respectively provided with horizontal sleeves The upper and lower hubs 16 and 18 are stacked in a state where the upper and lower hubs 16 and 18 are stacked by fitting the hinge pin 27 to the screw hole 20 while the support rods 22 and 24 are symmetrically installed, And is rotated about the hinge pin (27).

The effects of the present invention are as follows.

First, the supporting bar 26 of the damper 2 is arranged in an X-shape inside the outer frame 10 of the wall body 6 constituting the wooden house 4, When the impact of the seismic wave reaches the wall surface member 6, the wall surface member 6 is prevented from being deformed while the rocking motion is suppressed by the support rods 26 .

The upper and lower hubs 16 and 18 constituting the damper 2 are coupled to each other by the hinge rod 27 and rotate together with the support rod 26. Depending on the size of the wall body 6, The damper 2 can be applied to the wall members 6 of various sizes by rotating the upper and lower hubs 16 and 18 to adjust the tilt of the support rod 26 to remarkably improve the functionality and practicality .

Figs. 1A and 1B are state diagrams showing a conventional art. Fig.
2 is a state in which an embodiment of the present invention is installed in a wooden house.
3 is a front view of a wall body provided with an embodiment of the present invention.
4 is a sectional view of a damper which is an embodiment of the present invention.
5 is a perspective view of a rotary member of a damper according to an embodiment of the present invention.
6 is a perspective view of a corner bracket of a damper according to an embodiment of the present invention.
7 is a sectional view taken along the line A-A in Fig.
8 is a rotational state view of a rotating member according to an embodiment of the present invention.
9A, 9B and 9C are state diagrams showing another embodiment of the present invention.

The present invention relates to a damper (2) for restraining a building from rocking due to a shock of a seismic wave transmitted by an earthquake, and its structure will be described with reference to FIG. 2 to FIG.

First, a wooden house 4 to be built as a house is divided into a wall surface 6 and a roof 8. The wall surface 6 is formed with a rectangular outer frame 10 A plurality of partition plates 12 are vertically arranged in the transverse direction within the outer frame 10 and the inner wall of the outer frame 10 is prevented from rocking due to the impact of a seismic wave A damper 2 is installed.

The damper 2 is provided with a rotary member 14 which forms a rotation center at the center of the outer frame 10. The upper and lower hubs 16 and 18 are provided at the center of the rotary member 14, And the horizontal sleeves 22 and 24 are symmetrically arranged and welded to the side surfaces of the upper and lower hubs 16 and 18, respectively.

A support rod 26 is coupled to the horizontal sleeves 22 and 24 and a fixing screw is vertically penetrated to the horizontal sleeves 22 and 24 and the support rods 26 so as to be fastened with a nut.

The upper and lower hubs 16 and 18 are stacked in a state of being separated from each other. A hinge pin 27 is engaged and coupled to the through hole 20 of the upper and lower hubs 16 and 18, The hinge rod 27 is disposed at the upper end of the upper hub 16 while the head 29 is formed at the upper end of the hinge rod 27. The washer 35 is inserted into the lower portion of the hinge rod 27, And a pinhole 31 is formed in the lower surface of the washer 35 through the hinge pin 27 and is engaged with the split pin 33.

At this time, the upper and lower hubs 16 and 18 are rotated around the hinge rod 27, and the support rods 26 coupled to the horizontal sleeves 22 and 24 are respectively rotated at the edges of the outer frame 10 So that it is installed in an X shape.

The supporting bar 26 passes through the through hole 52 formed in the partition plate 12 and engages the hook member 32 at the tip end of the hook member 32. The hook member 32 is provided with a rotary sleeve 34 And a horizontal sleeve 36 is welded and fixed to the side surface of the rotary sleeve 34 so that the support shaft 26 is engaged with the horizontal sleeve 36 and the support rod 26, And is fastened with a nut and coupled.

The rotary sleeve 34 is coupled to a corner bracket 38 provided at each corner of the outer frame 10. The corner bracket 38 has a side plate 44 bent in a & A horizontal plate 48 passing through the center of the coupling hole 46 is welded and spaced apart from the upper and lower sides of the side plate 44. A rotary sleeve 34 is interposed between the horizontal plates 48, So that the hinge rod 39 can be rotated.

The head 41 is formed on the upper end of the hinge rod 39 and is disposed on the upper outside of the horizontal plate 48. A washer 47 is inserted into the lower portion of the hinge rod 39, And a pinhole 43 is formed through the hinge pin 39 below the washer 47 to engage with the split pin 45. [

At this time, the rotary sleeve 34 is rotated or raised or lowered while being loosely engaged with the hinge rod 27.

The supporting bar 26 of the damper 2 installed as described above is arranged in an X shape within the outer frame 10 and the supporting bar 26 is installed inside the outer frame 10 with the corner bracket 38 The upper and lower hubs 16 and 18 to perform a deformation preventing function.

A heat insulating material 50 is installed between the inside of the outer frame 10 and the partition plate 12 to function as a heat insulating and soundproofing member and a support rod 26 is attached to the through hole 52 of the partition plate 12. [ Is fixed with a chemical.

The heat insulating material 50 may be selected from insulation, urethane, and glass fiber, but is not limited thereto, and the chemical sold in the market may be applied.

On the other hand, on the front and back surfaces of the outer frame 10, a cover plate 54 is covered and fixed.

Hereinafter, the operation of the present invention will be described.

First, the outer frame 10 is formed into a rectangular shape corresponding to the size of the wall surface 6 of the wooden house 4, and then a plurality of partition plates 12 are arranged in the vertical direction between the outer frames 10 And through holes 52 are formed in the upper and lower portions of the partition plate 12 so as to allow the support bars 26 to pass through while being arranged in an X-shape.

The upper and lower hubs 16 and 18 are stacked and disposed in the center of the outer frame 10 and then the hinge rods 20 and 20 are inserted into the through holes 20 of the upper and lower hubs 16 and 18. [ And then the washer 35 is inserted into the lower portion of the hinge rod 27 to be brought into close contact with the bottom surface of the lower hub 18 and then the split pin 33 is fitted to the pin hole 31.

Therefore, the upper and lower hubs 16 and 18 can rotate about the hinge rod 27 as shown in FIG.

Corner brackets 38 are fastened to the corners of the outer frame 10 by screws.

The support bar 26 is installed in the outer frame 10 while passing through the through hole 52 of the partition plate 12 in order to arrange the support bar 26 at an upper left side of the wall body 6, One side of the support bar 26 is inserted into the horizontal sleeve 22 located on the other side of the upper hub 16 and the other side of the support bar 26 is inserted into the horizontal sleeve 36 constituting the hook member 32.

After that, the fixing screws are passed through the horizontal sleeves 22, 36 and the support rods 26, and the nuts are fastened and engaged.

The rotation sleeve 34 of the hooking member 32 is inserted between the horizontal plates 48 of the corner brackets 38 positioned on the upper left side of the outer frame 10 and then the engagement of the engagement of the horizontal plate 48 The hinge rod 39 is inserted into the hole 46 and the rotary sleeve 34 and then the washer 47 is inserted into the lower portion of the hinge rod 39 to be brought into close contact with the outer side of the lower horizontal plate 48, The pin hole (43) is fitted with a split pin (45).

Accordingly, the rotary sleeve 34 can be raised, lowered, or rotated in the hinge rod 39.

The other end of the support rod 26 is inserted and fixed to the horizontal sleeve 22 located at one side of the upper hub 16 in the same manner as described above and the hook member 32 coupled to one side of the support rod 26, Is coupled to the corner bracket (38) located on the right lower portion of the outer frame (10).

The other support rods 26 are installed inside the outer frame 10 while passing through the through holes 52 of the partition plate 12 so as to be inclined to the lower left side of the wall surface body 6, The lower hub 18 is rotated about the hinge pin 27 so that the horizontal sleeve 24 is directed toward the support rod 26.

One side of the support bar 26 is inserted into the horizontal sleeve 24 located on the other side of the lower hub 18 and the other side of the support bar 26 is inserted into the horizontal sleeve 36 constituting the hook member 32. [ And the horizontal sleeves 22 and 36 and the support rods 26 are fastened to each other by fastening the nuts while passing through the fixing screws.

The rotary sleeve 34 of the hooking member 32 is inserted between the horizontal plates 48 of the corner brackets 38 positioned at the lower left side of the outer frame 10, The hinge rod 39 is inserted into the hole 46 and the rotary sleeve 34 and then the washer 47 is inserted into the lower portion of the hinge rod 39 and brought into close contact with the outer side of the lower horizontal plate 48, The pin hole (43) is fitted with a split pin (45).

Accordingly, the rotary sleeve 34 can be raised, lowered, or rotated in the hinge rod 39.

The other end of the support rod 26 is inserted and fixed to the horizontal sleeve 24 located at one side of the lower hub 18 in the same manner as described above and the hook member 32 coupled to one side of the support rod 26, Engages with the corner bracket (38) located on the upper right side of the outer frame (10).

As a result, the support rods 26 coupled to the upper and lower hubs 16 and 18 are installed in an X-shape as a whole, and the support rods 26 support the edges of the outer frame 10, ).

The upper and lower hubs 16 and 18 and the support bar 26 are connected to the hinge rods 6a and 6b as shown in FIG. 8, respectively, when the size of the wall body 6 is changed according to the size of the wooden house 4, 27. At this time, the support rod 26 is installed as described above while adjusting the end of the support rod 26 to face the edge of the outer frame 10.

Next, a chemical is injected into the through-hole 52 of the partition plate 12 to fix the support rod 26 with adhesive force, and then the insulation, the urethane, the glass fiber, And the lid plate 54 is fixed to the front and rear surfaces of the outer frame 10 to complete the wall surface 6.

The wall surface 6 thus completed is used for assembling the wooden house 4. The wall surface 6 is made of wood but may be made of metal but is not limited thereto.

When the P wall (longitudinal wave), the S wave (transverse wave), the L wave (surface wave), and the like, which are seismic waves, arrive in a state where the wall surface member 6 is assembled to the wooden house 4, At this time, since the supporting bar 26 constituting the damper 2 supports the edge of the outer frame 10, the swinging of the wall body 6 is suppressed. Thus, wooden houses are safe from seismic waves.

Other embodiments of the present invention will be described with reference to FIGS. 9A, 9B, and 9C.

The damper 2 has the same structure as described above except that the hinge screw 28 is inserted into the through hole 20 of the upper and lower hubs 16 and 18 constituting the damper 2 The fixing nut 30 is fastened to the lower portion.

At this time, the fixing nut 30 is in close contact with the bottom surface of the lower hub 18, and the upper and lower sleeves 16 and 18 are rotated or fixed according to the fastening state of the fixing nut 30 .

 The rotary sleeve 34 of the hooking member 32 is inserted between the horizontal plates 48 of the corner brackets 38 and the engagement hole 46 of the horizontal plate 48 and the rotary sleeve 34 are provided with hinges The screws 40 are vertically penetrated and coupled while the fixing nut 42 is fastened to the lower portion.

At this time, the fixing nut 42 is in close contact with the bottom surface of the lower horizontal plate 48, and the rotary sleeve 34 is rotated or fixed according to the fastening state of the fixing nut 42.

The horizontal sleeves 22 and 24 of the upper and lower hubs 16 and 18 and the support rods 26 inserted in the horizontal sleeve 36 of the hooking member 32 are fixed by fastening screws respectively, Do not.

[0030] The operation of adjusting the tilt of the support bar 26 of the damper 2 will be described below. First, the fixing nuts 30 and 42 are loosened so that the hinge screws 28 and 40 are loosened. 26 are rotated about the hinge screws 28, 40 to adjust the tilt. Thereafter, when the fixing nuts 30, 42 are fastened, the tilt adjustment operation of the support rods 26 is completed.

Although the preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, it is to be understood that the present invention is not limited to the disclosed embodiments. Those skilled in the art will appreciate that various modifications, And various modifications and changes may be made without departing from the scope of the present invention.

2: damper 4: wooden house
6: wall surface 8: roof
10: Outer frame 12: Bulkhead plate
14: rotating member 16: upper hub
18: Lower hub 20:
22, 24, 36: horizontal sleeve 26: support bar
27, 39: hinge rods 28, 40: hinge screws
29, 41: heads 30, 42:
31, pin hole 32,
33,45: Split pin 34: Rotating sleeve
35, 47: Washer 38: Corner bracket
44: side plate 46: engaging hole
48: Horizontal plate 50: Insulation
52: through hole 54: cover plate

Claims (7)

An outer frame 10 formed in a rectangular shape,
A plurality of longitudinally spaced partition plates 12 spaced apart from each other in the outer frame 10,
A damper 2 installed inside the outer frame 10 to suppress rocking of the wall body 6 due to a shock of a seismic wave,
In the seismic strengthening wall surface structure constituting the wall surface member 6 by the lid plate 54 fixed to the front and rear surfaces of the outer frame 10,
The damper (2) is constituted by a support bar (26) being installed inside the outer frame (10) in an X-
The support rods 26 are arranged at the corners of the outer frame 10 at the ends thereof,
The support bar 26 is installed through the partition plate 12,
At the center of the outer frame 10
The upper and lower hubs 16 and 18 are installed while passing through the through hole 20,
Horizontal sleeves 22 and 24 are symmetrically installed on both side surfaces of the upper and lower hubs 16 and 18, respectively, and support rods 26 are fitted and fitted,
By engaging the hinge pin 27 with the screw hole 20,
The upper and lower hubs 16 and 18 are rotated about the hinge pin 27 in a stacked state,
Corner brackets 38 are respectively installed on corners of the outer frame 10,
The support bracket 26 is coupled to the corner bracket 38 by a hooking member 32 so as to be rotatable left and right,
A rotating sleeve 34 is vertically formed on the hooking member 32,
A horizontal sleeve (36) for fitting a support bar (26) is welded to the side surface of the rotary sleeve (34)
Wherein the rotary sleeve (34) is rotatably coupled to the hinge rod (39) while being inserted into the corner bracket (38). delete delete delete The method according to claim 1,
The support bar 26 is rotated about the hinge rods 27 and 39 coupled to the upper and lower hubs 16 and 18 and the corner bracket 38 to adjust the inclination,
Wherein a slope of the support bar (26) is adjusted according to a size of the outer frame (10) to be used as a damper (2). The method according to claim 1,
Wherein the outer frame (10) is provided with a heat insulating material (50) made of any one of insulation, urethane, and glass fiber. The method according to claim 1,
At the center of the outer frame 10
The upper and lower hubs 16 and 18 are installed while passing through the through hole 20,
Horizontal sleeves 22 and 24 are symmetrically installed on both side surfaces of the upper and lower hubs 16 and 18, respectively, and support rods 26 are fitted and fitted,
The upper and lower hubs 16 and 18 are rotated in accordance with the fastening state of the hinge screw 28 in a stacked state by fastening the fastening nut 30 with the hinge screw 28 inserted into the straight hole 20 Wherein the wall surface structure for anti-seismic reinforcement is fixed.

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