KR101704361B1 - Method for Seismic enforcement of Ground Equipment using Bracket and Structure for Seismic enforcement Thereby - Google Patents

Abstract

The present invention relates to a method and a structure for reinforcing a ground equipment with reinforced earthquake-proof performance by using a variable bracket, capable of adjusting the length of a bracket installed on a concrete base, so as to be applicable in a site including ground equipment and the concrete base having different specifications, and prevent the ground equipment from being out of the base in an earthquake or an external impact. According to the present invention, in a structure of putting the ground equipment in the upper part of the concrete base and being reinforced by the variable bracket, the variable bracket comprises: a main bracket including a first support plate bent in an L-shape to have an installation hole formed thereon and a first contact plate having a long hole-shaped guide hole; and an auxiliary bracket included in a second support plate bent in a reversed L-shape to have an installation hole, and a second contact plate having a protrusion part projecting out more than the thickness of the main bracket. While the first and the second contact plate face come in contact with each other, and are moved in a state inserting the protrusion part of the auxiliary bracket into the guide hole, an installation length is adjusted and the protrusion projecting out in the opposite side of an insertion direction is hit, so the auxiliary bracket can be fixed in the main bracket by the protrusion modified by hit.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a reinforcement structure and a reinforcing structure for a ground device having a seismic reinforcing bracket,

The present invention can adjust the length of a bracket installed on a concrete foundation base so that the ground apparatus can be applied to different types of ground equipment and concrete foundation bases in different places. Further, in case of an earthquake or an external impact, The present invention relates to a reinforcement method and a reinforcement structure of a ground device reinforced with a seismic performance by a variable bracket that is not detached.

Ground equipment such as transformers and switchgees are to be installed on a concrete foundation with a certain height. In the case of installation, it is fixed to the outer side of the ground equipment and the upper part of the concrete foundation with brackets.

These brackets are fixed with anchor bolts at the top of the concrete foundation. These installation conditions are limited by the requirement that the area of the concrete foundation is larger than the size of the ground equipment. However, when the ground equipment is installed on the site, there is a problem that the size of the ground equipment and the area of the concrete foundation block do not differ so that the foundation is broken when the anchor bolt is fixed. On the contrary, when the area of the concrete foundation is smaller than the ground equipment, And the ground device is mounted on the ground.

In addition, when an earthquake or an external shock is applied, the impact is concentrated on the bracket. As a result, the bracket easily breaks or separates, causing the ground device on the concrete foundation track to fall over and cause damage to property or property damage. There is a problem in that when the earthquake or an external shock is caused, the equipment in the ground apparatus is broken down.

As a related prior art, Patent Document 01 is provided with a supporting upper plate spaced apart from a floor slab via a fitting member of vertical supporting rods, and the supporting upper plate and the mounting bracket are fixedly fastened with L-shaped brackets, horizontal and vertical bolts, A vertical bolt passing through the L-shaped bracket and the support upper plate is fastened with a separate tube, which is fastened with a U-shaped bolt and a fixing bolt through a vertical support rod and an L-shaped steel, A turnbuckle installed in an anchor bracket of a floor slab is connected.

However, the above-mentioned prior art is installed in a form in which the switchboard is not installed on the concrete foundation bar but is spaced apart from the floor by the vertical support rods and the support top plate, so that the installation structure is very complicated and the installation cost and installation time are rapidly increased There is a difficult problem to be solved.

Korean Registered Patent No. 10-0850228 (registered on July 29, 2008)

SUMMARY OF THE INVENTION The present invention has been devised to solve the problems as described above, and it is an object of the present invention to provide a structure for installing a ground device on a concrete foundation, And a reinforcement structure and a reinforcement structure of a ground device reinforced with seismic performance by a variable type bracket which is easy to install.

In addition, the variable bracket is constructed of a structure that absorbs shocks during a slight earthquake or external impact to absorb shock, so that the bracket is broken or the ground equipment is not detached from the concrete foundation block. And a reinforcing structure.

The present invention relates to a structure in which a ground device is mounted on an upper portion of a concrete foundation and is reinforced by a flexible bracket, the flexible bracket (30) comprising:

A main bracket 100 formed by a first support plate 110 formed with an installation hole 111 and a first contact plate 120 formed with a guide hole 130 in the form of a long hole, A second support plate 210 having a mounting hole 211 formed therein and a cylindrical protrusion 230 protruding from the main bracket 100 and having a hollow portion 231, And a second contact plate (220) formed to be shorter than the length of the first contact plate (120)

The first contact plate 120 and the second contact plate 220 come into contact with each other to adjust the installation length while moving the protrusion 230 of the auxiliary bracket 200 inserted in the guide hole 130, So that the auxiliary bracket 200 can be fixed to the main bracket 100 by the protruding portion 230 deformed by hitting the protruding portion 230 protruding from the main bracket 100. [

According to another aspect of the present invention, there is provided a method of installing a ground device on a concrete foundation block and reinforcing the ground device by a variable bracket, wherein the reinforcing method comprises the steps of (S-1) (S-2) of preparing a bracket and an auxiliary bracket, a step (S-3) of adjusting an installation length in a state where the projection of the auxiliary bracket is inserted into a guide hole of the main bracket, (S-4) of securing the main bracket and the auxiliary bracket to each other by bolting to the mounting holes of the bracket to fix the bracket to the concrete base and ground equipment; and fixing the main bracket and the auxiliary bracket to each other by striking the protrusion of the auxiliary bracket in the fixed state S-5).

The reinforcement method and the reinforcement structure of the ground apparatus reinforced with the seismic performance by the variable bracket according to the present invention can be changed into various forms according to the condition of the construction site through the variable bracket composed of the main bracket and the auxiliary bracket, And the degree of fixation of the projections can be adjusted according to the striking strength of the tool.

In addition, when earthquake or external impact is applied, the protruding portion of the auxiliary bracket slides to absorb the impact, so that the ground equipment can move slightly on the concrete foundation but can prevent the ground equipment from being detached from the variable bracket.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing an overall installation example of a reinforcement structure of a ground apparatus reinforced with earthquake-resistant performance by the variable bracket of the present invention
2 is a perspective view showing a first embodiment of a variable bracket according to the present invention;
Fig. 3 is an exploded perspective view of the variable bracket according to the present invention.
FIG. 4 is a perspective view showing a fixed state of the variable bracket according to the present invention,
5 is a cross-sectional view illustrating a first embodiment of a variable-type bracket according to the present invention.
6 is a perspective view showing a second embodiment of the variable bracket according to the present invention.
7 is a cross-sectional view showing a second embodiment of a variable bracket according to the present invention,
8 is a perspective view showing a third embodiment of the variable bracket according to the present invention.
9 is a sectional view showing a second embodiment of the variable bracket according to the present invention,
Fig. 10 is a perspective view showing another embodiment in which the projection of the auxiliary bracket according to the present invention is constituted by a pair of plate-

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1, the present invention relates to a structure relating to a structure in which a ground device 20 is mounted on an upper portion of a concrete foundation block 10 and is reinforced by a variable bracket 30,

2, the variable bracket 30 includes a first support plate 110 having a mounting hole 111 formed therein and a first support plate 110 having a slotted guide hole 130 formed therein, A second support plate 210 which is folded in a "? &Quot; -shaped form and is provided with a mounting hole 211, and a main bracket 100 protruding from the main bracket 100, And a second contact plate 220 formed with a cylindrical protrusion 230 having a first contact plate 231 and a shorter length than the first contact plate 120,

The first contact plate 120 and the second contact plate 220 come into contact with each other to adjust the installation length while moving the protrusion 230 of the auxiliary bracket 200 inserted in the guide hole 130, So that the auxiliary bracket 200 can be fixed to the main bracket 100 by the protruding portion 230 deformed by hitting the protruding portion 230 protruding from the main bracket 100. [

The variable bracket 30 of the present invention is made of a metal material and is used as one bracket type by the combination of the main bracket 100 and the auxiliary bracket 200, And can be applied to a site having various installation conditions by adjusting the installation length.

The main bracket 100 is formed of a first support plate 110 and a first contact plate 120 which are bent in a "C" shape. The first support plate 110 is provided with a concrete foundation block 10, A mounting hole 111 for tightly fixing to an outer casing of the base 20 is formed and fixed by an anchor bolt or a bolt screw. The first contact plate 120 is configured such that a long hole-shaped guide hole 130 is formed at the center in the longitudinal direction and abuts against the second contact plate 220 of the auxiliary bracket 200 to be fixed to each other.

The auxiliary bracket 200 is bent in a "? "Shape to include a second support plate 210 and a second contact plate 220. Like the first support plate 110, the second support plate 210 is formed with an installation hole 211 for tightly fixing to the concrete foundation block 10 or the ground device 20 by an anchor bolt or a bolt screw To be fixed. The protrusion 230 protrudes more than the thickness of the main bracket 100 so that when the protrusion 230 is inserted into the first contact plate 220, So that it can be further protruded toward the opposite side of the insertion hole.

2, the main bracket 100 and the auxiliary bracket 200 are brought into contact with the first contact plate 120 and the second contact plate 220 so that the protrusions 230 of the auxiliary bracket 200 are in contact with each other, 4, the protruding portion 230 protruded toward the opposite side is struck to deform the protruding portion 230 by the deformed protruding portion 230, (200) to be fixed to the main bracket (100).

That is, the protrusion 230 of the auxiliary bracket 200 is formed in a cylindrical shape having a hollow portion 231, and when the protrusion 230 is hammered by a tool such as a hammer, the protrusion 230 is opened to the outside, . At this time, the fixing force is increased as the hitting force is stronger, and the protruding portion 230, which is hit by the hitting, may be fixed to the first contact plate 120 as it is pierced. In addition, when the cutout portion 232 is further formed perpendicularly to the protruded portion 230, the cutout portion 232 is easily deformed while being easily widened to the outside.

The main bracket 100 and the auxiliary bracket 200 have a bent shape similar to each other but the second contact plate 220 of the auxiliary bracket 200 has a first contact plate 120 formed on the main bracket 100, The width of the auxiliary bracket 200 is adjusted to be shorter than the length of the auxiliary bracket 200. [

In the following, an example in which the variable bracket 30 of the present invention is installed in accordance with the difference in specification between the concrete foundation block 10 and the ground equipment 20 will be described in three forms.

≪ First Installation Example &

As shown in Figs. 2 to 5, the first installation example is such that the concrete foundation block 10 is further protruded to the outside of the ground device 20 because the size of the concrete foundation block 10 is larger than that of the ground device 20 It is applied to construction site of form.

The structure of the variable bracket 30 of the first embodiment is such that the auxiliary bracket 200 is positioned below the main bracket 100 so that the main bracket 100 is fixed to the ground apparatus 20 and the auxiliary bracket 200 The first support plate 110 and the second support plate 210 are fixed to the concrete foundation block 10 so that the directions of the first support plate 110 and the second support plate 210 are different from each other. The first installation example can be more firmly fixed when the anchor bolt is installed in the hollow portion 231 of the protrusion 230 with the protrusion 230 located on the concrete foundation block 10.

≪ Second Installation Example &

6 to 7, the size of the concrete foundation block 10 is equal to or similar to the size of the ground device 20, so that the side surface of the concrete foundation block 10 is connected to the ground device 20 ) In the form of a line.

The structure of the variable bracket 30 of the second embodiment is such that the auxiliary bracket 200 is positioned below the main bracket 100 so that the main bracket 100 is fixed to the ground apparatus 20, The main bracket 100 and the auxiliary bracket 200 are fixed to the concrete base 10 in the same manner as in the first embodiment. That is, the first support plate 110 and the second support plate 210 are fixed so as to be oriented in the same direction so as to be installed on the same vertical line.

In the second installation example, when the protrusion 230 is located outside the concrete foundation 10 and is fastened to the hollow portion 231 of the protrusion 230 with bolts and nuts, the fixing force of the variable bracket 30 .

In addition, although the second installation example can be applied to the field conditions of the first installation example as much as possible, it is preferable that the second installation example be installed as the first installation example when the difference between the ground apparatus 20 and the concrete foundation stand 10 is large Do.

≪ Third Installation Example &

8 to 9, the third installation example is such that when the size of the concrete foundation block 10 is smaller than the size of the ground device 20, the ground device 20 is further provided on the side of the concrete foundation block 10 It is applied to the construction site of the protruding form.

In the third embodiment, the auxiliary bracket 200 is located at the upper portion, the main bracket 100 is located at the lower portion, and the auxiliary bracket 200 is fixed to the ground apparatus 20 And the main bracket 100 is fixed to the concrete base 10. At this time, it is preferable that the first support plate 110 and the second support plate 210 can be adjusted in the same direction, but they may be installed in opposite directions.

The variable bracket 30 according to the present invention can be changed in various forms depending on the conditions of the construction site. The variable bracket 30 can be easily adjusted in the length and can be easily adjusted in the field. In case of an earthquake or an external impact, The effect that the ground apparatus 20 can move slightly on the concrete foundation bar 10 but can prevent the ground apparatus 20 from being detached from the deformable bracket 30 .

10 shows another embodiment of the protrusion 230 according to the present invention. The protrusion 230 is formed in a pair of plates so as not to be cylindrical but can be opened on both sides, and a fixing protrusion 240 is protruded . The fixing protrusion 240 has a sharp outer side so that it can be stuck to the first contact plate 120 of the main bracket 100 when the striker 240 is struck, thereby further increasing the fixing force.

The reinforcement method using the variable bracket reinforced with the earthquake-proof performance of the ground apparatus according to the present invention comprises: (S-1) of arranging the ground apparatus 20 on the concrete foundation block 10 and a step (S-1) of preparing the main bracket 100 and the auxiliary bracket 200 of the variable bracket 30, respectively (S-3) of adjusting the installation length of the main bracket 100 in a state where the protrusion 230 of the auxiliary bracket 200 is inserted into the guide hole 130 of the main bracket 100; (S-4) of bolting to the mounting holes (111) and (211) of the auxiliary bracket (200) and fixing them to the concrete foundation block (10) and the ground equipment (20) (S-5) of fixing the main bracket 100 and the auxiliary bracket 200 to each other by striking the protrusion 230 of the auxiliary bracket 200.

The step (S-5) of fixing the main bracket 100 and the auxiliary bracket 200 to each other by striking the protrusion 230 of the auxiliary bracket 200 is a final step for the sake of installation, If the installation lengths of the variable brackets 30 can be precisely adjusted before the fixing brackets 10 and 20 are fastened to the ground apparatuses 20 by bolts to the mounting holes 111 and 211, (S-4) of fixing to the ground device 20 may be performed earlier.

While the present invention has been described with reference to the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

10: concrete base 20: ground equipment
30: Adjustable bracket 100: Main bracket
110: first supporting plate 111: mounting hole
120: first contact plate 130: guide hole
200: auxiliary bracket 210: second supporting plate
211: mounting hole 220: second contact plate
230: protruding portion 231: hollow portion
232: incision part 240: fixing projection

Claims (4)

In the method in which the ground equipment 20 is mounted on the concrete foundation block 10 and reinforced by the variable bracket 30,
The reinforcing method includes a step (S-1) of placing a ground device on a concrete foundation block,
(S-2) of preparing the main bracket and the auxiliary bracket of the variable bracket,
(S-3) of adjusting the installation length while inserting the projection of the auxiliary bracket into the guide hole of the main bracket;
A step (S-4) of bolting to the mounting holes of the main bracket and the auxiliary bracket to fix them to the concrete base and the ground equipment,
(S-5) fixing the main bracket and the auxiliary bracket to each other by striking the projecting portion of the auxiliary bracket in the fixed state, and reinforcing the earthquake-resistant performance by the variable bracket.
delete In the structure in which the ground equipment 20 is mounted on the upper portion of the concrete foundation bar 10 and reinforced by the variable bracket 30,
The variable bracket (30) comprises:
A main bracket 100 composed of a first support plate 110 having a mounting hole 111 formed therein and a first contact plate 120 having a slotted guide hole 130 formed therein,
A second supporting plate 210 having a mounting hole 211 formed therein and being bent in the shape of a letter "A" and a cylindrical protrusion 230 protruding more than the thickness of the main bracket 100 and having a hollow portion 231 are formed And a second contact plate (220) formed to be shorter than the length of the first contact plate (120)
The first contact plate 120 and the second contact plate 220 come into contact with each other to adjust the installation length while moving the protrusion 230 of the auxiliary bracket 200 inserted in the guide hole 130, So that the auxiliary bracket 200 can be fixed to the main bracket 100 by the protruded portion 230 deformed by hitting the protruding portion 230 protruding from the main bracket 100,
Wherein the cut-out portion (232) is formed vertically in the protrusion (230) so that it can be deformed while being easily widened outwardly when hitting the reinforcement structure.

The method of claim 3,
The protrusion 230 of the auxiliary bracket 200 is formed in a pair of plates so as to be widened on both sides and a fixing protrusion 240 protrudes from the outer surface of the auxiliary bracket 200. When the fixing protrusion 240 is hung on the main bracket 100 So as to be able to be stuck to the first contact plate (120) of the reinforcing bracket.

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