KR101100147B1 - Anti-vibration device for control panel of electric power - Google Patents

Abstract

PURPOSE: A steady for a distribution board is provided to easily install the distribution board by controlling supporting force using a coil spring which is installed in an anti-vibration rubber. CONSTITUTION: A plurality of anti-vibration wires(1) is formed into a circular shape. A plurality of anti-vibration wires is penetrated into the side of two anti-vibration boards(2,3) with a constant interval. The two anti-vibration boards are separated with a fixed interval to up and down. A plurality of fixing bolts(5) fixes the two anti-vibration boards in a base plate(4). A leveler(7) is installed between the two anti-vibration boards.

Description

Anti-vibration device for control panel of electric power}

The present invention relates to a dustproof switch for a switchboard that is installed between the bottom and the bottom of the switchboard to prevent damage caused by vibration to protect the switchboard, more specifically, two dust-proof connected up and down by a plurality of dust-proof wire wound in a circular shape Between the diaphragm is a rectangular parallelepiped shape between the diaphragm and a plurality of support springs are installed at a predetermined interval so that the support springs are directly penetrated. By varying the bearing capacity of the anti-vibration port, the present invention relates to an anti-vibration port for a switchgear which enables the switchgear to be stably supported horizontally at a constant height so that the dust-proof function is more effectively exhibited.

[Reference 1] Domestic Patent No. 10-0991972, registered on October 29, 2010.

In general, electrical facilities such as buildings and factories have a large amount of demand power, so they receive 22,900V of high voltage from the power company and step down to the commercial voltage of 220V or 380V.

As described above, the apparatus necessary for the function of transforming the high voltage into the commercial voltage is a switchgear. The switchgear consists of a power supply facility receiving high voltage from the substation, a substation facility for stepping down the high voltage supplied from the substation to a commercial voltage, and a power distribution facility for supplying the stepped commercial voltage safely and efficiently. Will be supplied.

The switchgear having such a configuration has a predetermined volume and is connected between the inlet port to which electric power is supplied from the distribution line inside the enclosure having the door, the automatic section switch connected in series to the downstream of the inlet port, and the downstream section of the automatic section switch unit and the ground. A power fuse for protecting the transformer current transformer connected to the downstream of the lightning arrester, automatic section switchgear, a transformer for transformer for power supply connected to the downstream of the power fuse for transformer transformer protection, and a transformer for transformer for power supply Downstream of the integrated power meter and transformer transformer for power supply and supply, a transformer whose primary side is connected in series, a parking short circuit connected to the secondary side of the transformer, and a plurality of wirings connected to the downstream of the parking short circuit and cut off each load if necessary. The breaker is installed.

The switchgear is fixedly installed as a bolt through a floor angle and a pillar angle assembled by anchor bolts on a concrete floor inside or outside a building.Today, a seismic design is applied to a switchgear to prevent damage caused by earthquakes. It is becoming.

That is, it is designed to have a seismic function by installing a plurality of anti-vibration openings composed of two anti-vibration plates spaced up and down by inserting a plurality of anti-vibration wires circularly inserted between the bottom angle and the bottom installed in the bottom of the switchboard. have.

Therefore, even if vibrations are generated from the ground due to an earthquake or the like, the vibrations are canceled by the anti-vibration wires, thereby minimizing the vibrations transmitted to the switchboard, thereby preventing damages such as leakage and fire due to the vibrations.

However, even if the dust-proof wires constituting each of the dustproof ports installed at the bottom of the switchboard are manufactured to have the same bearing capacity in the design process, the load applied at each bottom of the switchboard is not constant, so the load that each dustproof port bears Different from each other, there was a problem in that the distance between the two vibration plates of the dustproof outlet was not constant.

In order to solve this problem, each dustproof port supporting the switchboard by the present applicant supports the switchboard at a constant height regardless of the uneven load applied at the bottom of the switchboard, so that the switchboard is stably supported and the dustproof function In order to be able to effectively exhibit the, the dust-proof switch for the switchgear of the literature 1, the vertical level of the cylindrical leveler made of the anti-vibration rubber is vertically registered between the anti-vibration diaphragm and patented.

Accordingly, by applying different types of anti-vibration rubber constituting the leveler, it is possible to stably support the switchgear horizontally at a constant height by eliminating the variation in load applied to each of the dustproof ports installed in the switchgear.

The above-described conventional dust barrier for switchgear comprises different types of dustproof rubbers constituting the leveler so as to correspond to the load variations in order to eliminate the load variation of the switchgear according to the position.

However, the configuration of having a support force corresponding to the load variation of the switchgear according to the installation position, such as the dust barrier for the switchgear, requires a rather difficult task due to factors such as the type and characteristics of the anti-vibration rubber, as well as the working time due to such a difficult task It also has the disadvantage that it takes a little more.

Therefore, the present invention is to provide a dustproof switch for a switchgear having a structure that can more easily adjust the bearing capacity of each dustproof opening by changing the configuration of the leveler to solve the disadvantages of the conventional dustproof switch for the switchgear. have.

The present invention has been invented to solve the above problems, a plurality of dust-proof wire formed in a circular; Two anti-vibration plates through which a plurality of anti-vibration wires penetrate at predetermined intervals and spaced vertically at predetermined intervals; A plurality of fixing bolts fixing two anti-vibration plates to a base plate fixed to the bottom and bottom of the switchboard; The leveler is installed between the two vibration damping plate to adjust the bearing force according to the load applied from the switchgear to maintain a vertical gap of the vibration partition; A spring insertion hole is provided at a predetermined interval and vertically penetrated through the anti-vibration rubber, and a plurality of spring insertion holes are respectively inserted vertically to provide a vibration switch for the switchgear composed of a coil spring.

The present invention is very convenient and precisely adjust the support force supporting the switchgear according to the number of coil springs installed in the anti-vibration rubber, so that the installation work of the switchgear more easily, as well as support the switchgear horizontally and stably Since it is possible to improve the dust-proof performance is effective.

1 is a perspective view of the present invention.
2 is a longitudinal sectional view of the present invention;
Figure 3 is a front view according to the installation state of the present invention.
Figure 4 is an enlarged longitudinal sectional view according to the installation state of the present invention.

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

The present invention is installed between the bottom and bottom of each corner portion of the switchboard (D) as shown in Figure 3 caused by the vibration by causing the switchboard (D) is not transmitted to the switchboard (D) caused by the earthquake, etc. It is a dustproof switch 100 for the switchgear to prevent accidents such as leakage and short circuit and fire of the switchgear (D).

In particular, the dustproof switch 100 for the switchgear according to the present invention is characterized in that it has a structure that can change and adjust its supporting force very simply and accurately according to the load deviation acting on each corner of the switchgear (D).

This feature is, as shown in Figures 1 to 2, a plurality of dust-proof wire (1) formed in a circular; A plurality of anti-vibration wires (2) (3) installed through the side portion at regular intervals and spaced apart vertically at predetermined intervals; A plurality of fixing bolts 5 and 6 for fixing the two vibration isolation plates 2 and 3 to the base plate 4 fixed to the bottom and bottom of the switchboard D by the anchor bolts 13, respectively; A leveler (7) installed between the two vibration isolation plates (2) and (3) to support the load applied from the distribution panel (D) to make the vertical gap between the vibration isolation plates (2) and (3) constant. In the dustproof port, the leveler 7 has a rectangular parallelepiped shape, and a plurality of spring inserting holes 8 are vertically penetrated with a plurality of spring inserting holes 8 and a plurality of spring inserting holes 8 respectively. A vertical insertion is achieved by the structure consisting of the coil spring (10).

That is, the leveler 7 is composed of the anti-vibration rubber 9 and a plurality of coil springs 10 inserted through the anti-vibration rubber 9 to adjust the bearing force of the anti-vibration opening 100 according to the number of installation of the coil spring 10. It is by.

Therefore, when the plurality of dustproof outlets 100 are to be installed at each corner of the switchgear D as shown in FIGS. 3 and 4, the load applied to the floor at each corner of the switchgear D is measured. After that, the number of installation of the coil spring 10 to be installed in the anti-vibration rubber (9) of each of the anti-vibration port 100 according to the load deviation may be applied differently.

For example, if two coil springs 10 are installed in the anti-vibration rubber 9 of the anti-vibration port 100 installed at the corner portion at which the 100 kg / m 2 load is applied, the 50 kg / m 2 load is applied. In the anti-vibration rubber 9 of the anti-vibration port 100 is installed in the corner portion, one coil spring 10 is installed, and the anti-vibration rubber of the anti-vibration port 100 is installed in the corner portion at which a load of 200 kg / m 2 is applied. Four coil springs 10 may be provided in (9).

Then, since the bearing force of each of the dustproof outlets 100 is precisely added or subtracted according to the number of installations of the coil springs 10, the bearing force of each of the vibrationproof spheres 100 corresponds to the load deviation applied at each corner of the switchboard D. It can be conveniently and accurately adjusted.

Accordingly, each of the anti-vibration openings 100 supports each corner of the switchboard D with an accurate support force corresponding to the load variation, thereby supporting the switchboard D stably and horizontally at a predetermined height to more effectively exhibit the dustproof function. Will be.

Therefore, the leveler 7 simply consists of a cylindrical anti-vibration rubber (9) by adjusting the bearing force of each of the anti-vibration opening (100) in accordance with the load deviation of the switchgear (D) through the elastic force or compression force that appears according to its type It is possible to completely solve the conventional problem that the adjustment of the bearing capacity is not easy and not precise.

At this time, the plurality of bolt insertion holes 11 are vertically penetrated in the anti-vibration rubber 9 so as to correspond to the formation positions of the bolt holes 12 formed in the anti-vibration plates 2 and 3. It is inserted into the fixing bolts (5) and (6) for fixing the upper vibration plate (2) and the lower vibration plate (3) of the upper panel (D) and the base plate (4), respectively. It is to fix the.

Therefore, the anti-vibration rubber (9) is secured without being fixed between the anti-vibration plate (2) (3) by the bolt insertion hole 11 is inserted into the upper and lower ends of the fixing bolts (5) and (6) State can be maintained.

As described above, the dustproof switch 100 for the switchgear according to the present invention can adjust the supporting force for supporting the switchgear D very easily and precisely, so that the installation work of the switchgear D can be very convenient as well as the switchgear D. ) Can be stably supported horizontally for more effective dust protection.

1: anti-vibration wire 2, 3: anti-vibration plate
4: base plate 5, 6: fixing bolt
7: Leveler 8: Spring insertion hole
9: anti-vibration rubber 10: coil spring
11: bolt hole 12: bolt hole
13: anchor bolt 100: dustproof hole
D: Switchgear

Claims (2)

A plurality of dustproof wires 1 formed in a circular shape; A plurality of anti-vibration wires (2) (3) installed through the side portion at regular intervals and spaced apart vertically at predetermined intervals; A plurality of fixing bolts 5 and 6 for fixing the two vibration damping plates 2 and 3 to the base plate 4 fixed to the bottom and bottom of the distribution panel D, respectively; A leveler 7 installed between the two vibration damping plates 2 and 3 to adjust the bearing force according to the load applied from the water distribution panel D to make the vertical gap of the vibration damping plates 2 and 3 constant. In the configured vibration switchboard for the switchgear, the leveler 7 has a rectangular parallelepiped shape, and a plurality of spring insertion holes 8 are formed in the vertical direction with a plurality of spring insertion holes 8 spaced apart from each other, and a plurality of spring insertion holes 8. Each of which is vertically inserted into the coil spring 10; The dustproof outlet for the switchgear, characterized in that it is possible to stably support the switchgear (D) horizontally at a constant height by adjusting the bearing force according to the number of coil springs (10) inserted into the spring insertion hole (8).
According to claim 1, wherein the plurality of bolt insertion holes (11) in which the ends of the fixing bolts (5) (6) which are respectively penetrated to the anti-vibration plate (2) (3) is inserted into the anti-vibration rubber (9) at a predetermined interval. It is formed to penetrate vertically, the dust-proofing switchgear for the dust-proof rubber (9) is fixed by the fixing bolts (5) (6) inserted into the upper and lower portions of the bolt insertion hole (11).

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