KR100966166B1 - A vibration-proof device, a distributing board having the same, and a electric transformer having the same - Google Patents

Abstract

PURPOSE: A vibration-proof apparatus, a distributing board including a vibration-proof apparatus and a transformer including a vibration-proof apparatus and a distributing board are provided to absorb a vibrating energy of an elastic member by attaching the viscoelastic tape to the elastic member. CONSTITUTION: A first hollow is formed on an upper side of an outer case(210). A second hollow is formed on a lower side of an inner case(220). The inner case is inserted to inside the outer case. A first elastic member(230) is formed on one side of the lower side of the inner case. A second elastic member(240) is arranged on an inner space formed by the outer case and the inner case. One end of the second elastic member is closely fixed to the upper side of the outer case. The other end of the second elastic member is closely fixed on the first elastic member. A viscoelasticity tape is closely attached to the sidewall of the second elastic member.

Description

A Vibration-Proof Device, a Distributing Board having the Same, and a Electric Transformer having the Same}

The present invention relates to a seismic and anti-vibration technology, and more particularly, by applying an elastic member, an earthquake-proof and dust-proof device capable of minimizing vibration and noise transmitted by the skin complex, and an earthquake- and dust-proof device with an elastic member formed In order to minimize the vibration transmitted to the switchboard and the transformer from the ground with the switchboard and the transformer is installed in the switchboard and the transformer with a seismic and dustproof device to prevent the damage or damage of the switchboard and the transformer. It is about.

As is well known, the substation is a collection of facilities that are installed for the distribution of voltage and current and the distribution of power in the process of sending the power produced by the power plant to the demand through transmission and distribution lines. On the other hand, substations that raise the generation voltage to the transmission voltage are called boost substations. Substations that lower the transmission voltage to distribution voltages or lower transmission voltages are called substations. Substations are called lower voltage substations, depending on their function. A substation that lowers is called a primary substation, and a substation that converts a transmission voltage into a distribution voltage is called a secondary substation.

Examples of facilities installed in such substations include transformers, disconnectors, breakers, ancestor installations, lightning arresters, and switchboards. Substations are the main facilities of the country, and it is very important to cut off the elements in advance in order to hinder stable power supply. On the other hand, among the hazards, earthquakes are difficult to predict and prepare for, and the damage patterns are also fatal and widespread, and various seismic and dustproof technologies are applied to substation facilities, for example, switchboards or transformers.

Referring to FIG. 1A, the seismic and dustproof technologies applied to the conventional switchboard are as follows. An anchor bolt 12 for arranging and fixing the switchboard 10 on the ground is interposed between the switchboard 10 and the ground and is simply fastened to the lower end 11 of the switchboard 10. In the case of simple fastening by the anchor bolt 12, the vibration caused by the earthquake is directly transmitted to the switchboard, there is a problem that the switchboard 10 may be damaged or damaged. Alternatively, an anti-vibration pad 13 for alleviating vibration caused by the ground may be interposed between the anchor bolt 12 and the ground, thereby alleviating transmission of the vibration due to the earthquake directly to the switchboard 10. However, this also, it is difficult to completely block the transmission of the fatal and extensive earthquake vibration to the switchboard (10).

Meanwhile, referring to FIG. 1B, the seismic and dustproof technologies applied to the conventional transformer are described in detail as follows. At the lower end portion 21 of the transformer 20, an anchor bolt 22 for interposing and fixing the transformer 20 on the ground is interposed between the transformer 20 and the ground, and the dustproof pad 23 is anchor bolt ( It is simply interposed between the ground 22 and the ground, to mitigate the direct transmission of the vibration due to the earthquake to the transformer 20. However, it is difficult to completely block the vibration caused by the earthquake to the transformer 20.

Therefore, there is an urgent need for an earthquake-proof and dust-proof device that can minimize or completely block transmission of vibrations due to earthquakes to switchboards and transformers.

Accordingly, an object of the present invention is to provide a seismic and dustproof device that can minimize vibration and noise transmitted by a skin complex by applying an elastic member.

Another object of the present invention is to provide a switchgear having an earthquake-proof and dustproof device having an elastic member, which can minimize the direct transmission of vibration by the ground on which the switchboard is installed to the switchboard.

Another object of the present invention is to provide a transformer having an earthquake-proof and dust-proof device having an elastic member, and capable of minimizing the direct transmission of vibration by the ground on which the transformer is installed to the transformer.

Another object of the present invention is to provide a switchgear and a transformer having an earthquake-proof and dust-proof device which can simplify the assembly of each case and the elastic member, thereby simplifying the construction process.

In order to achieve the above object, according to a preferred embodiment of the present invention, in the seismic and dustproof apparatus which is attached to the skin complex by the attachment member to reduce the vibration caused by the skin complex, the lower surface is open, the upper surface The outer case having a first hollow is formed, the upper surface is opened, the second hollow is formed in a predetermined shape on the lower surface, the inner case is inserted into the outer case and the inner case facing the outer case The first elastic member is formed on one side of the lower surface, and is disposed in the inner space formed by the outer case and the inner case, one end is tightly fixed to the upper surface of the outer case and the other end is tightly fixed to the first elastic member 2 an elastic member and a viscoelastic tape that is tightly coupled to a side surface of the second elastic member and covers the outer periphery of the second elastic member. Including, at least one locking portion is formed on one side of the outer surface of the inner case, the outer surface of the outer case is provided with a coupling guide groove of a predetermined shape through which the locking portion is coupled, providing an earthquake-resistant and dustproof device do.

Preferably, an upper portion of the lower surface of the inner case is formed to protrude into the second elastic member and extend to a predetermined height, and a seating portion in which a third hollow corresponding to the first and second hollows is formed, is formed outside of the seating portion. The second elastic member may be seated and fixed thereto.

Preferably, the attachment member may be inserted from one side of the first hollow of the outer case, and may be fixedly coupled to the skin complex through the second and third hollows of the inner case.

Preferably, the attachment member may be inserted from one side of the third hollow of the inner case, and may be fixedly coupled to the skin complex through the first hollow of the outer case.

Preferably, the coupling guide groove may be indented from one side of the lower surface opposite to the upper surface of the outer case in which the first hollow is formed, and may be formed in a substantially 'c' shape.

According to another preferred embodiment of the present invention, the switchboard disposed on the ground; An earthquake-proof and dustproof device fixed to the lower end of the switchboard; One side couples the seismic and anti-vibration devices to the lower end of the switchboard, and the other side is an attachment member for fixing the seismic and anti-vibration devices to the ground; The seismic and anti-vibration devices, the lower surface is open, the upper surface 1 an outer case in which a hollow is formed, an upper surface is opened, and a second hollow is formed in a predetermined shape on a lower surface thereof, and an inner case inserted into and coupled to the inner side of the outer case, and one lower surface of the inner case facing the outer case. A second elastic member formed in the first elastic member and an inner space formed by the outer case and the inner case, one end of which is tightly fixed to an upper surface of the outer case and the other end of which is tightly fixed to the first elastic member. And a viscoelastic tape tightly coupled to the side of the second elastic member to cover the outer periphery of the second elastic member. At least one locking portion is formed on one side of an outer surface of the inner case, and a coupling guide groove having a predetermined shape through which the locking portion is coupled is formed on the outer surface of the outer case, and a second upper portion of the lower surface of the inner case is provided. Protruding into the elastic member and extending to a predetermined height, and a seating portion in which a third hollow corresponding to the first and second hollows is formed is formed, and the second elastic member is seated and fixed to an outer side of the seating portion, The guide groove discloses a switchboard having an earthquake-proof and dustproof device which is indented from one side of a lower surface facing the upper surface of the outer case in which the first hollow is formed, and is formed in a substantially 'c' shape.

Preferably, the lower end of the switchboard is formed with an anchor bolt coupling hole corresponding to the first hollow of the outer case, the attachment member is composed of an anchor bolt and a nut, one side of the anchor bolt is the seismic and dustproof device It is fixed to the ground disposed, the other side of the anchor bolt is inserted into the anchor bolt coupling hole of the lower end of the switchboard through the second and third hollow of the inner case, and the first hollow of the outer case to the nut It can be fastened and fixed by the lower end of the switchboard.

According to another preferred embodiment of the present invention, a transformer disposed on the ground; An earthquake-proof and dust-proof device fixedly installed at the lower end of the transformer; One side couples the seismic and anti-vibration device to the lower end of the transformer, and the other side is an attachment member for fixing the seismic and anti-vibration device to the ground; The seismic and anti-vibration device, the lower surface is open, the upper surface is made of 1 an outer case in which a hollow is formed, an upper surface is opened, and a second hollow is formed in a predetermined shape on a lower surface thereof, and an inner case inserted into and coupled to the inner side of the outer case, and one lower surface of the inner case facing the outer case. A second elastic member formed in the first elastic member and an inner space formed by the outer case and the inner case, one end of which is tightly fixed to an upper surface of the outer case and the other end of which is tightly fixed to the first elastic member. And a viscoelastic tape tightly coupled to the side of the second elastic member to cover the outer periphery of the second elastic member. At least one locking portion is formed on one side of an outer surface of the inner case, and a coupling guide groove having a predetermined shape through which the locking portion is coupled is formed on the outer surface of the outer case, and a second upper portion of the lower surface of the inner case is provided. Protruding into the elastic member and extending to a predetermined height, and a seating portion in which a third hollow corresponding to the first and second hollows is formed is formed, and the second elastic member is seated and fixed to an outer side of the seating portion, The guide groove provides a transformer having an earthquake-proof and dustproof device which is indented from one side of a lower surface facing the upper surface of the outer case in which the first hollow is formed, and is formed in a substantially 'c' shape.

Preferably, the lower end of the transformer is formed with an anchor bolt coupling hole corresponding to the first hollow of the outer case, the attachment member is composed of an anchor bolt and a nut, one side of the anchor bolt is the seismic and dustproof device It is fixed to the ground disposed, the other side of the anchor bolt is inserted into the anchor bolt coupling hole of the lower end of the transformer through the second and third hollow of the inner case and the first hollow of the outer case to the nut It can be fastened and fixed by the lower end of the transformer.

According to the present invention, by applying the elastic member, there is an effect that can minimize the vibration and noise transmitted by the skin complex.

In addition, by additionally configuring the viscoelastic tape to the elastic member to absorb the vibration energy of the elastic member, the vibration duration of the elastic member can be significantly reduced, and the vibration can be attenuated.

In addition, by providing an earthquake-proof and dust-proof device having an elastic member, by minimizing the direct transmission of vibration by the ground is installed on the switchboard, there is an effect that can suppress the direct damage or breakage of the switchboard.

In addition, by providing an earthquake-proof and dust-proof device formed with an elastic member, by minimizing the direct transmission of vibration by the ground on which the transformer is installed to the transformer, there is an effect that can suppress the direct damage or breakage of the transformer.

Furthermore, there is an effect that can simplify the construction process by simplifying the assembly of each case and the elastic member.

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

2A is a schematic front view, side view, and plan view of an earthquake-proof and dustproof device according to an embodiment of the present invention, FIG. 2B is a schematic exploded view of the earthquake-proof and dustproof device of FIG. 2A, and FIG. It is a schematic illustration showing the engagement fixing of the device with the attachment member.

2A to 2C, the earthquake-resistant and dustproof device 200 according to an embodiment of the present invention includes an outer case 210, an inner case 220, a first elastic member 230, and a second The elastic member 240 and the viscoelastic tape 250 may be formed.

As is well known, the seismic and dustproof apparatus is attached to the skin complex by means of an attachment member, for example, to reduce the vibration transmitted from the skin complex attached by bolting, or to minimize the vibration transmitted by the skin complex. do.

The outer case 210 has a lower surface 211 open and an upper surface 212 formed with a first hollow 212-1. On the other hand, the outer case 210 is formed in a substantially cylindrical shape with one side open, the outer surface of the outer case 210, the engaging guide groove 212 of a predetermined shape through which the engaging portion 223 to be described later penetrates. -2) is formed. Here, as illustrated in FIGS. 2A and 2B, the coupling guide groove 212-2 has a lower surface 211 opposite to the upper surface 212 of the outer case 210 having the first hollow 212-1. Indented from one side may be formed in a substantially '' 'shape.

The inner case 220, the upper surface 221 is opened, the second hollow 222-1 is formed in a predetermined shape on the lower surface 222, and is inserted into the outer case 210. On the other hand, the inner case 220 is substantially formed in a cylindrical shape with one side open, at least one locking portion 223 protrudes from one side of the outer surface of the inner case 220. Here, the engaging portion 223 is formed in a pair in a position opposite to the outer surface of the inner case 220, it is possible to stably support the coupling of the outer case 210 and the inner case 220 (Fig. 2b (C) of). That is, by the engaging protrusion 223 and the 'c'-shaped coupling guide groove 212-2 protruding, it is easy to couple the outer case 210 and the inner case 220 without a separate fastening member, the outer side The case 210 and the inner case 220 may be stably coupled.

The first elastic member 230 is formed above the lower surface 222 of the inner case 220 facing the outer case 210. Here, the first elastic member 230 may include a rubber pad. Here, the first elastic member 230 may play a role of alleviating and minimizing noise due to vibration or vibration transmitted from the skin complex (not shown). That is, the first elastic member 230 primarily serves to attenuate the natural frequency generated by the earthquake or vibration.

The second elastic member 240 is disposed in an inner space formed by the combination of the outer case 210 and the inner case 220. Specifically, one end of the second elastic member 240 is tightly fixed to the upper surface 212 of the outer case 210, the other end is tightly fixed to the first elastic member 230. Here, the second elastic member 240 may include a spring. Accordingly, the second elastic member 240 may provide a resilient force or a restoring force between the outer case 210 and the inner case 220, thereby reducing and minimizing noise due to vibration or vibration transmitted from the skin complex. That is, the second elastic member 240 secondaryly attenuates the natural frequency generated by the earthquake or vibration.

On the other hand, the lower surface 222 of the inner case 220 is formed to protrude to the second elastic member 240, that is, the spring inside the predetermined height, to correspond to the first and second hollow (212-1, 222-1) A seating portion 224 having a third hollow 222-2 may be formed. Here, the second elastic member 240 is seated on the outside of the seating portion 224 is fixedly coupled. By the extended seating part 224, the second elastic member 240 may be stably seated on the bottom surface 222 of the inner case 220 without shaking and coupled thereto. That is, the elongated seating part 224 stably seats the second elastic member 240, thereby effectively preventing abrasion of the viscoelastic tape 250 to be described later due to the movement of the second elastic member 240. .

On the other hand, the viscoelastic tape 250 is tightly coupled to the side of the second elastic member 240 to cover the outer periphery of the second elastic member 240. Accordingly, the viscoelastic tape 250 may serve to reinforce the elastic force or the restoring force of the second elastic member 240. For example, the viscoelastic tape 250 may further absorb the vibration energy of the second elastic member 240 to effectively reduce the vibration duration of the second elastic member 240.

Therefore, the above-described seismic and dustproof apparatus is intended to substantially damp the natural frequency of vibration transmitted from the outside, for example, by an earthquake, and thus, the first elastic member 230, ie, rubber, is disposed under the inner case 220. By forming a pad to damp the primary vibration, by damping the secondary vibration by the second elastic member 240, that is, the spring, and by absorbing the vibration energy of the second elastic member 240 by the viscoelastic tape 250 In addition, the vibration duration of the second elastic member 240 may be significantly reduced, and the vibration is attenuated.

In addition, referring to FIG. 2C, an example of fixing and fixing the skin complex by the attachment member 31 and the earthquake-resistant and dustproof device 200 will be described below.

In the first example (a), the attachment member 31 is inserted from one side of the first hollow 212-1 of the outer case 210, so that the second and third hollows 222-of the inner case 220 are inserted. 1,222-2) may be fixedly coupled to the skin complex, such as the ground. Thus, the attachment member 31 is interposed between the power generation equipment such as a switchboard (not shown) or a transformer (not shown) and the outer case 210 of the earthquake-resistant and dustproof device 200, so that the ground fluctuations or fluctuations, for example, Vibration caused by the vibrations can be prevented from being transmitted directly from the ground to the switchboard or the transformer. That is, by the first and second elastic members 230 and 240, vibration transmitted from the ground may be alleviated to minimize damage or breakage of the switchboard or transformer. Here, the attachment member 31 includes an anchor bolt (anchor bolt) and a nut (nut), one side of the anchor bolt of the first hollow 212-1 of the outer case 210 and the inner case 220 Through the second and third hollows (222-1, 222-2) is fixed to the ground, the other side of the anchor bolt may be fixed to the lower end of the switchboard or transformer by a nut.

In the second example (b), the attachment member 32 is inserted from one side of the second and third hollows 222-1 and 222-2 of the inner case 220, so that the first hollow ( 212-1) may be fixed to the skin complex. Here, the skin complex may be a movable component. Therefore, one end of the attachment member 22 is in close contact with one side of the third hollow 222-2, and the other end of the attachment member 22 penetrates through the first hollow 212-1 of the outer case 210 to attach the skin. By being fixedly coupled to, the vibration transmitted from the region where the skin complex is located to the skin complex may be minimized by the first and second elastic members 230 and 240 and the viscoelastic tape 250.

FIG. 3A is a schematic front view of a switchgear having a seismic and dustproof device according to another embodiment of the present invention, and FIG. 3B is an enlarged schematic front view of a part of the switchboard including the seismic and dustproof device of FIG. 3A.

3A and 3B, the switchboard 300 having the seismic and dustproof device according to another embodiment of the present invention includes a switchboard 310 disposed on the ground and a lower end 310-1 of the switchboard 310. It may include a seismic and dustproof device 200 and the attachment member 320 is fixed to the.

As is well known, the switchboard 310 is a device for storing and managing a switch, a meter, a relay, or a transformer 311 for operation and control of a power plant or substation. Here, the lower end portion 310-1 of the switchboard 310 has an anchor bolt coupling hole (not shown) corresponding to the first hollow 212-1 of the outer case 210 of the seismic and dustproof device 200, which will be described later. Is formed.

As illustrated in FIG. 3A, the earthquake-resistant and dustproof device 200 is fixedly installed at the lower end 310-1 of the switchboard 310. Here, the earthquake-resistant and dust-proof apparatus 200 which is a component of the switchboard 300 provided with the earthquake-resistant and dustproof apparatus by this embodiment is substantially the same as the earthquake-resistant and dustproof apparatus 200 mentioned above with reference to FIGS. 2A and 2B. 2A and 2B, the seismic and dustproof apparatus 200 of the switchboard 300 having the seismic and dustproof apparatus according to the present embodiment will be described in detail as follows. The outer case 210 has a lower surface 211 open and an upper surface 212 formed with a first hollow 212-1. On the other hand, the outer case 210 is formed in a substantially cylindrical shape with one side open, the engaging guide groove 212-2 of a predetermined shape through which the engaging portion 223 penetrates to the outer surface of the outer case 210. ) Is formed. Here, as illustrated in FIGS. 2A and 2B, the coupling guide groove 212-2 has a lower surface 211 opposite to the upper surface 212 of the outer case 210 having the first hollow 212-1. Indented from one side may be formed in a substantially '' 'shape. The inner case 220, the upper surface 221 is opened, the second hollow 222-1 is formed in a predetermined shape on the lower surface 222, and is inserted into the outer case 210. On the other hand, the inner case 220 is substantially formed in a cylindrical shape with one side open, at least one locking portion 223 protrudes from one side of the outer surface of the inner case 220. Here, the engaging portion 223 is formed in a pair in a position opposite to the outer surface of the inner case 220, it is possible to stably support the coupling of the outer case 210 and the inner case 220 (Fig. 2b (C) of). That is, by the engaging protrusion 223 and the 'c'-shaped coupling guide groove 212-2 protruding, it is easy to couple the outer case 210 and the inner case 220 without a separate fastening member, the outer side The case 210 and the inner case 220 may be stably coupled. The first elastic member 230 is formed above the lower surface 222 of the inner case 220 facing the outer case 210. Here, the first elastic member 230 may include a rubber pad. Here, the first elastic member 230 may play a role of alleviating and minimizing noise due to vibration or vibration transmitted from the ground. That is, the first elastic member 230 primarily serves to attenuate the natural frequency generated by the earthquake or vibration. The second elastic member 240 is disposed in an inner space formed by the combination of the outer case 210 and the inner case 220. Specifically, one end of the second elastic member 240 is tightly fixed to the upper surface 212 of the outer case 210, the other end is tightly fixed to the first elastic member 230. Here, the second elastic member 240 may include a spring. Therefore, the second elastic member 240 may provide a resilient force or a restoring force between the outer case 210 and the inner case 220, thereby reducing and minimizing noise due to vibration or vibration transmitted from the ground. That is, the second elastic member 240 secondaryly attenuates the natural frequency generated by the earthquake or vibration. On the other hand, the lower surface 222 of the inner case 220 is formed to protrude to the second elastic member 240, that is, the spring inside the predetermined height, to correspond to the first and second hollow (212-1, 222-1) A seating portion 224 having a third hollow 222-2 may be formed. Here, the second elastic member 240 is seated on the outside of the seating portion 224 is fixedly coupled. By the extended seating part 224, the second elastic member 240 may be stably seated on the bottom surface 222 of the inner case 220 without shaking and coupled thereto. That is, the elongated seating part 224 stably seats the second elastic member 240, thereby effectively preventing abrasion of the viscoelastic tape 250 to be described later due to the movement of the second elastic member 240. . On the other hand, the viscoelastic tape 250 is tightly coupled to the side of the second elastic member 240 to cover the outer periphery of the second elastic member 240. Accordingly, the viscoelastic tape 250 may serve to reinforce the elastic force or the restoring force of the second elastic member 240. For example, the viscoelastic tape 250 may further absorb the vibration energy of the second elastic member 240 to effectively reduce the vibration duration of the second elastic member 240.

Again, referring to FIGS. 3A and 3B, one side of the attachment member 320 couples the seismic and dustproof device 200 to the lower end 310-1 of the switchboard 310, and the other side of the attachment member 320 is seismic. And the dustproof device 200 is fixed to the ground. Here, the attachment member 320 is composed of an anchor bolt 321 and a nut 322 to be fastened to the anchor bolt 321, one side of the anchor bolt 321 is the ground where the earthquake-resistant and dust-proof device 200 is disposed The other side of the anchor bolt 321 penetrates the second and third hollows 222-1 and 222-2 of the inner case 220 and the first hollow 212-1 of the outer case 210. It is inserted into the anchor bolt coupling hole of the lower end 310-1 of the switchboard 310 is fastened and fixed to the lower end 310-1 of the switchboard 310 by a nut 322.

Here, the above-described earthquake-resistant and dust-proof device 200 is intended to substantially attenuate the natural frequency of the vibration caused by the earthquake, for example, from the outside, the first elastic member 230, the lower portion of the inner case 220, That is, a rubber pad is formed to damp the primary vibration, the second elastic member 240, that is, the spring is damped to the secondary vibration, and the viscoelastic tape 250 vibrates the vibration energy of the second elastic member 240. By absorbing, the vibration duration of the second elastic member 240 can be significantly reduced, thereby effectively damping the vibration.

Therefore, according to the present embodiment, the earthquake-resistant and dust-proof device 200 can prevent the ground fluctuation or fluctuation, for example, vibration caused by an earthquake, from being transmitted directly from the ground to the switchboard 310. That is, by the first and second elastic members 230 and 240 and the viscoelastic tape 250, vibrations transmitted from the ground may be alleviated to minimize damage or breakage of the switchboard 310.

FIG. 4A is a schematic front view of a transformer with a seismic and dustproof device according to another embodiment of the present invention, and FIG. 4B is an enlarged schematic front view of a portion of the transformer with the seismic and dustproof device of FIG. 4A.

4A and 4B, the transformer 400 having the seismic and dustproof device according to another embodiment of the present invention is fixed to the transformer 410 disposed on the ground and the lower end of the transformer 410. The earthquake-resistant and dustproof device 200 and the attachment member 420 may be included.

As is well known, an electric transformer 410 is a device that changes the value of an alternating voltage or current using an electromagnetic induction phenomenon. Here, the lower end portion 410-1 of the transformer 410 has an anchor bolt coupling hole (not shown) corresponding to the first hollow 212-1 of the outer case 210 of the seismic and dustproof device 200 described later. Is formed.

As illustrated, the earthquake-resistant and dustproof device 200 is fixedly installed at the lower end portion 410-1 of the transformer 410. Here, the earthquake-resistant and dust-proof device 200 which is a component of the transformer 400 equipped with the earthquake-resistant and dustproof device by this Example is substantially the same as the earthquake-resistant and dustproof device 200 mentioned above with reference to FIGS. 2A and 2B. Since it is the same, referring to FIGS. 2A and 2B, the seismic and vibration isolator 200 of the transformer 400 having the seismic and vibration isolator according to the present embodiment will be described below. The outer case 210 has a lower surface 211 open and an upper surface 212 formed with a first hollow 212-1. On the other hand, the outer case 210 is formed in a substantially cylindrical shape with one side open, the outer surface of the outer case 210, the engaging guide groove 212 of a predetermined shape through which the engaging portion 223 to be described later penetrates. -2) is formed. Here, as illustrated in FIGS. 2A and 2B, the coupling guide groove 212-2 has a lower surface 211 opposite to the upper surface 212 of the outer case 210 having the first hollow 212-1. Indented from one side may be formed in a substantially '' 'shape. The inner case 220, the upper surface 221 is opened, the second hollow 222-1 is formed in a predetermined shape on the lower surface 222, and is inserted into the outer case 210. On the other hand, the outer case 220 is formed in a substantially cylindrical shape with one side open, at least one hook portion 223 is formed on one side of the outer surface of the inner case 220. Here, the engaging portion 223 is formed in a pair in a position opposite to the outer surface of the inner case 220, it is possible to stably support the coupling of the outer case 210 and the inner case 220 (Fig. 2b (C) of). The first elastic member 230 is formed above the lower surface 222 of the inner case 220 facing the outer case 210. Here, the first elastic member 230 may include a rubber pad. Accordingly, the first elastic member 230 may play a role of alleviating and minimizing noise due to vibration or vibration transmitted from the skin complex (not shown). That is, the first elastic member 230 primarily serves to attenuate the natural frequency generated by the earthquake or vibration. The second elastic member 240 is disposed in the inner space formed by the outer case 210 and the inner case 220. Specifically, one end of the second elastic member 240 is tightly fixed to the upper surface of the outer case 210, the other end is tightly fixed to the first elastic member 230. Here, the second elastic member 240 may include a spring. Accordingly, the second elastic member 240 may provide a resilient force or a restoring force between the outer case 210 and the inner case 220, thereby reducing and minimizing noise due to vibration or vibration transmitted from the skin complex. That is, the second elastic member 240 secondaryly attenuates the natural frequency generated by the earthquake or vibration. On the other hand, the upper part of the lower surface of the inner case 220, the second elastic member 240, that is, protrudes to the inside of the spring and is formed to extend to a certain height, corresponding to the first and second hollow (212-1, 222-1) A seating portion 224 having three hollows 222-2 may be formed. Here, the second elastic member 240 is seated on the outside of the seating portion 224 is fixedly coupled. By the mounting part 224, the second elastic member 240 may be stably seated on the upper surface of the lower surface of the inner case 220 without shaking. That is, the elongated seating part 224 stably seats the second elastic member 240, thereby effectively preventing abrasion of the viscoelastic tape 250 to be described later due to the movement of the second elastic member 240. . On the other hand, the viscoelastic tape 250 is tightly coupled to the side of the second elastic member 240 to cover the outer periphery of the second elastic member 240. Accordingly, the second elastic member 240 may serve to reinforce the elastic force or the restoring force. For example, the viscoelastic tape 250 may further absorb the vibration energy of the second elastic member 240 to effectively reduce the vibration duration of the second elastic member 240. One side of the attachment member 420 couples the seismic and dustproof device 200 to the lower end portion 410-1 of the transformer 410, and the other side of the attachment member 420 fixes the seismic and dustproof device 200 to the ground. Let's do it. Here, the attachment member 420 is composed of an anchor bolt 421, a nut 422 fastening to the anchor bolt 421, one side of the anchor bolt 421 is the ground where the earthquake-resistant and dust-proof device 200 is disposed The other side of the anchor bolt 421 passes through the second and third hollows 222-1 and 222-2 of the inner case 220 and the first hollow 212-1 of the outer case 210. The anchor bolt coupling hole 410-2 of the lower end 410-1 of the transformer 410 is inserted into and fixed to the lower end 410-1 of the transformer 410 by a nut 422.

Here, the above-described earthquake-resistant and dust-proof device 200 is intended to substantially attenuate the natural frequency of the vibration caused by the earthquake, for example, from the outside, the first elastic member 230, the lower portion of the inner case 220, That is, a rubber pad is formed to damp the primary vibration, the second elastic member 240, that is, the secondary vibration is damped by the spring, and the vibration energy of the second elastic member 240 is absorbed by the viscoelastic tape 250. By absorbing, the vibration duration of the second elastic member 240 can be significantly reduced, thereby effectively damping the vibration.

Therefore, according to the present embodiment, the earthquake-resistant and dust-proof device 200 can prevent the ground fluctuation or vibration, for example, vibration caused by the earthquake from being directly transmitted from the ground to the transformer 410. That is, by the first and second elastic members 230 and 240 and the viscoelastic tape 250, vibration transmitted from the ground may be alleviated to minimize damage or breakage of the transformer 410.

In the above description of the embodiments of the present invention, with reference to the accompanying drawings, the earthquake-proof and dustproof device having a specific shape and structure, a switchboard having an earthquake-proof and dustproof device, and a transformer having the earthquake-resistant and dustproof device have been described. The present invention may be variously modified and changed by those skilled in the art, and such modifications and variations should be interpreted as falling within the protection scope of the present invention.

1A is a schematic front view of a switchboard having a dustproof pad according to the prior art, and FIG. 1B is a schematic front view of a transformer having a dustproof pad according to the prior art.

2A is a schematic front view, side view, and plan view of an earthquake and dustproof device according to an embodiment of the present invention.

FIG. 2B is a schematic exploded view of the earthquake and dustproof device of FIG. 2A.

FIG. 2C is a schematic illustration showing the engagement fixing of the seismic and dustproofing device and the attachment member of FIG. 2A.

Figure 3a is a schematic front view of a switchboard having a seismic and dustproof device according to another embodiment of the present invention.

FIG. 3B is an enlarged schematic front view of a part of a switchboard having the seismic and dustproof device of FIG. 3A.

Figure 4a is a schematic front view of a transformer with a seismic and dustproof device according to another embodiment of the present invention.

FIG. 4B is an enlarged schematic front view of a portion of the transformer with the seismic and dustproof device of FIG. 4A.

Claims (9)

An outer case having an open lower surface, an outer case having a first hollow formed on an upper surface thereof, an upper surface being opened, a second hollow formed in a predetermined shape on an lower surface thereof, an inner case inserted into and coupled to the inner case of the outer case; A first elastic member formed on one side of the lower surface of the inner case facing each other, and disposed in an inner space formed by the outer case and the inner case, one end of which is tightly fixed to the upper surface of the outer case, and the other end of the first elastic member A second elastic member tightly fixed to the second elastic member, and a viscoelastic tape tightly coupled to a side surface of the second elastic member to cover an outer circumference of the second elastic member, wherein at least one or more of one side of the outer surface of the inner case is provided. A locking portion is formed, and a coupling guide groove having a predetermined shape through which the locking portion is coupled is formed on the outer surface of the outer case. It is, be by a mounting member attached to the skin complexes, in the earthquake-resistant and vibration-proof apparatus for reducing the vibration caused by the skin complexes, The upper part of the lower surface of the inner case, the inner side of the second elastic member is formed to extend to a certain height, and the seating portion is formed with a third hollow corresponding to the first and second hollow is formed, the outer side of the seating portion 2 the elastic member is seated and fixed, The attachment member is inserted from one side of the first hollow of the outer case, the seismic and dustproof apparatus is fixed to the skin complex through the second and third hollow of the inner case. delete delete An outer case having an open lower surface, an outer case having a first hollow formed on an upper surface thereof, an upper surface being opened, a second hollow formed in a predetermined shape on an lower surface thereof, an inner case inserted into and coupled to the inner case of the outer case; A first elastic member formed on one side of the lower surface of the inner case facing each other, and disposed in an inner space formed by the outer case and the inner case, one end of which is tightly fixed to the upper surface of the outer case, and the other end of the first elastic member A second elastic member tightly fixed to the second elastic member, and a viscoelastic tape tightly coupled to a side surface of the second elastic member to cover an outer circumference of the second elastic member, wherein at least one or more of one side of the outer surface of the inner case is provided. A locking portion is formed, and a coupling guide groove having a predetermined shape through which the locking portion is coupled is formed on the outer surface of the outer case. It is, be by a mounting member attached to the skin complexes, in the earthquake-resistant and vibration-proof apparatus for reducing the vibration caused by the skin complexes, The upper part of the lower surface of the inner case, the inner side of the second elastic member is formed to extend to a certain height, and the seating portion is formed with a third hollow corresponding to the first and second hollow is formed, the outer side of the seating portion 2 the elastic member is seated and fixed, The attachment member is inserted from one side of the third hollow of the inner case, the earthquake-resistant and dust-proof device that is fixed to the skin complex through the first hollow of the outer case. The method according to claim 1 or 4, The coupling guide groove, Earthquake-proof and dust-proof device, characterized in that the first hollow is formed from a side of the lower surface facing the upper surface of the outer case is formed in a substantially '' 'shape. A switchboard disposed on the ground; An earthquake-proof and dustproof device fixed to the lower end of the switchboard; One side is coupled to the earthquake-resistant and dust-proof device to the lower end of the switchboard, the other side; Attaching member for fixing the earthquake-resistant and dustproof device to the ground; Includes, The earthquake-resistant and dustproof device has an outer case in which a lower surface is opened, an upper case in which a first hollow is formed, and an upper surface is opened, in which a second hollow is formed in a predetermined shape, and an inner side inserted into and coupled to the inner case. A first elastic member formed on one side of a lower surface of the inner case facing the outer case, and an inner space formed by the outer case and the inner case, one end of which is tightly fixed to the upper surface of the outer case; The other end includes a second elastic member tightly fixed to the first elastic member, a viscoelastic tape tightly coupled to the side surface of the second elastic member to cover the outer periphery of the second elastic member, the outer case of the inner case At least one locking portion is formed on one side of a side surface, and the locking portion penetrates and engages the outer surface of the outer case. A coupling guide groove is formed on the upper surface of the inner case, and the upper part of the inner side of the second elastic member protrudes to a predetermined height, and a seating portion in which a third hollow corresponding to the first and second hollows is formed is formed. The second elastic member is seated and fixed to an outer side of the seating portion, and the coupling guide groove is indented from one side of a lower surface opposite to the upper surface of the outer case in which the first hole is formed, thereby forming a substantially 'c' shape. Switchgear with a seismic and dustproof device. The method of claim 6, An anchor bolt coupling hole corresponding to the first hollow of the outer case is formed at the lower end of the switchboard, The attachment member is composed of an anchor bolt and a nut, one side of the anchor bolt is fixed to the ground on which the earthquake-resistant and dustproof device is disposed, the other side of the anchor bolt is the second and third hollow of the inner case, and A switchgear having an earthquake-proof and dustproof device which is inserted into an anchor bolt coupling hole at the lower end of the switchboard through the first hollow of the outer case and fastened to the lower end of the switchboard by the nut. A transformer disposed on the ground; An earthquake-proof and dust-proof device fixedly installed at the lower end of the transformer; One side is coupled to the seismic and dustproof device to the lower end of the transformer, the other side; Attaching member for fixing the seismic and dustproof device to the ground; Includes, The earthquake-resistant and dustproof device has an outer case in which a lower surface is opened, an upper case in which a first hollow is formed, and an upper surface is opened, in which a second hollow is formed in a predetermined shape, and an inner side inserted into and coupled to the inner case. A case, a first elastic member formed on one side of a lower surface of the inner case facing the outer case, and an inner space formed by the outer case and the inner case, one end of which is fixed to the upper surface of the outer case And the other end includes a second elastic member tightly fixed to the first elastic member, and a viscoelastic tape tightly coupled to a side surface of the second elastic member to cover the outer periphery of the second elastic member, At least one locking portion is formed at one side of the outer surface, and the locking portion penetrates and engages the outer surface of the outer case. A coupling guide groove is formed on the upper surface of the inner case, and the upper part of the inner side of the second elastic member protrudes to a predetermined height, and a seating portion in which a third hollow corresponding to the first and second hollows is formed is formed. The second elastic member is seated and fixed to an outer side of the seating portion, and the coupling guide groove is indented from one side of a lower surface opposite to the upper surface of the outer case in which the first hollow is formed to have a substantially 'c' shape. Transformer with a seismic and dustproof device. The method of claim 8, An anchor bolt coupling hole corresponding to the first hollow of the outer case is formed at the lower end of the transformer, The attachment member is composed of an anchor bolt and a nut, one side of the anchor bolt is fixed to the ground on which the earthquake-resistant and dustproof device is disposed, the other side of the anchor bolt is the second and third hollow of the inner case, and A transformer having an earthquake-proof and dust-proof device, characterized in that is inserted into the anchor bolt coupling hole of the lower end of the transformer through the first hollow of the outer case is fastened and fixed to the lower end of the transformer by the nut.

Images