KR100939475B1 - Earthquake-proofing distribute & switch board - Google Patents

Abstract

PURPOSE: An earthquake-proofing distribute & switch board is provided to prevent the mechanical vibration by the electromechanical power and earthquake-proof damage. CONSTITUTION: The enclosure(4) is fixed in the floor side(1) by using the anchor bolt and angle(3). The floor angle is fixed with the anchor bolt to the floor side. The supporting angle is fixed through bolt in the bottom surface of the enclosure. The several earthquake-proofing parts are installed addition between the floor angle and supporting angle. The bearing support case includes the bearing insertion hole and is fixed in the leveling plate upper side of the floor angle. The supporting bolt is inserted in the supporting angle through the punched bolt pass hole and is fixed through screwnut to the leveling plate of the supporting angle. The compressed spring absorbs vibration and the impact added in outside.

Description

Switchgear with seismic function {Earthquake-proofing distribute & switch board}

The present invention relates to a switchgear having a seismic function, and more particularly, to the enclosure bottom and concrete floor of a switchgear including a distribution panel, an MCC panel (Motor Control Center Panel), a low panel, a high panel, a transformer panel and a special panel. It is equipped with compression spring and anti-vibration rubber plate, and installs seismic means to cushion vibration and earthquake in the vertical and horizontal directions, and installs supporting angle and floor angle between them. In case of shock, such as vibration, the switchboard itself is prevented from falling or the door and the enclosure are shaken in a double way, and various components installed inside the switchboard's enclosure are flown to prevent damage such as power failure and fire. It is invented so that it can be prevented.

In general, since electric power demand is high in private electric facilities such as buildings or factories, it is impossible to receive electricity that can be used as it is from a power company, such as a general electric equipment having a low voltage of 110V or 220V.

Therefore, in general private electric installations, high voltages of 3,300V or 6,600V are received from the distribution lines of substations and converted to commercial voltages.In particular, private electric installations of large buildings receive 22.9kV of special high voltages and do not convert them to commercial voltages again. There is a switchgear that makes this possible.

Such a switchgear is a power supply facility for receiving high voltage and special high pressure supplied from a substation, a substation facility for stepping down high voltage and special high voltage received from a substation to a commercial voltage, and converts the stepped electricity into an electric device or a light in each part of the building. It is formed as a power distribution facility for supplying electricity to the building safely and efficiently.

Such a switchgear usually has a predetermined volume and has an entrance in which an electric power is normally supplied from a distribution line, an automatic section switch connected in series with a downstream of the entrance, and a connection between the downstream of the automatic section switch and the ground. A lightning arrester, a power transformer for protecting a transformer current transformer connected in series with a downstream of the automatic section switch, a transformer for transformer for power supply connected in series with a downstream of the power fuse for protecting transformer, and a transformer for transformer for power supply An integrated power meter for measuring the amount of power, and a transformer having a primary side connected in series at a downstream of the transformer transformer for power supply and supply, a main circuit breaker connected to the secondary side of the transformer, and downstream of the main circuit breaker, if necessary. It has a form in which a plurality of wiring breakers are installed to cut off each load.

The enclosure of such a switchgear panel has a panel bottom by attaching anchor bolts to concrete floors inside or outside buildings, assembling floor angles, assembling pillar angles to the floor angles, and assembling the enclosures to the assembled pillar angles. There is no seismic design, but the assembly is assembled by tightening bolts at an angle.

Therefore, in the conventional switchgear, the vibration state is transmitted to the panel itself with respect to mechanical vibration or earthquake caused by the vibration of the floor or the energization of a large power, and various devices mounted therein are damaged by an earthquake. It is often happening.

The present invention has been made to solve such a conventional problem, and is supported between the bottom of the enclosure of the distribution panel including the distribution panel, MCC panel, low platen, high-pressure plate, transformer plate and extra high platen and the concrete floor surface on which they are installed In addition to the installation of angles and floor angles, it is equipped with compression springs and anti-vibration rubber plates, and seismic means for buffering vibrations and earthquakes in the vertical and horizontal directions. When the shock occurs, it is doubled to prevent the switchboard itself from being turned over by an earthquake or vibration, or the door and the enclosure are trembling, as well as the various components installed inside the switchboard enclosure. Earthquake-resistant to prevent damage such as power failure and fire To provide a switchgear having a function.

A first embodiment of the present invention for achieving the above object, in the switchgear having a configuration that is fixed to the bottom surface by using a plurality of anchor bolts and angles, the angle is a "┗┛" shape in the longitudinal section A bottom angle fixed to the bottom by anchor bolts, and a support angle having a longitudinal section having a “┏┓” shape and fixed to the bottom of the enclosure through the bolts, and between the bottom angle and the support angle. It characterized in that the seismic means is installed.

In this case, the seismic means has a bearing support case having a bearing insertion hole into which self-aligning centering bearings are fitted and fixedly installed on an upper surface of a horizontal plate of a bottom angle; The bearing stop ring is installed at the lower end fitted to the self-aligning bearing, and the lower part is inserted into the bearing insertion hole of the bearing support case together with the self-aligning bearing, and the upper part is inserted through the bolt through hole drilled at the support angle to be supported by the nut. A support bolt fixed to the horizontal plate of the angle; When the ball is inserted into the bearing insertion hole of the bearing support case in the state where the inner ball is coupled to the lower end of the support bolt, and the impact is applied in the horizontal direction from the outside, the lower end of the support bolt is coupled to its own ball as the central axis. Self-aligning bearing inclined in the opposite direction to which the impact force is applied and causing the compression spring to absorb the impact force; The self-aligning bearing and the support bolt are provided in the center of the bearing support case with a hole through which the support bolt passes and fixedly installed on the horizontal plate of the bottom angle together with the bearing support case through several bolts on the upper surface of the bearing support case. A cover that does not escape from the; And a compression spring installed between the upper surface of the horizontal angle of the bottom angle and the lower surface of the horizontal angle of the support angle to cover the outside of the support bolt, the bearing support case, and the cover to absorb vibrations and shocks applied from the outside. do.

In addition, the width of the support angle of which the longitudinal section has a "┏┓" shape is wider than the width of the bottom angle of which the longitudinal section has a "┗┛" shape, so that both sides of the wing when the support angle is moved vertically or vertically by vibration or impact, etc. It is characterized in that the vertical vertical movement to the outside of both wings of the bottom angle.

In addition, between the upper surface of the compression spring and the bottom of the horizontal plate of the support angle or between any one of the bottom surface of the compression spring and the horizontal plate of the bottom angle absorbs and cushions the vibration and shock applied from the outside in the vertical direction. Further installing a vibration-proof rubber plate or absorbing and absorbing vibrations and shocks applied from the outside in the vertical direction between the upper surface of the compression spring and the bottom of the horizontal plate of the support angle and between the bottom surface of the compression spring and the upper surface of the horizontal plate of the bottom angle. It is characterized in that the dust-proof rubber plate is further installed.

In addition, the support angle is inclined due to being applied horizontally from the outside to either of the inner surface of both wings of the support angle or the outer surface of both wings of the bottom angle, the vibration and shock applied to the wings of the bottom angle hitting the wings of the bottom angle It characterized in that the dustproof rubber plate further absorbs and buffers.

According to a second embodiment of the present invention for achieving the above object, in a switchgear having a configuration in which an enclosure is fixed to a bottom surface by using several anchor bolts and angles, the angle has a "┗┛" shape in a longitudinal section. Consisting of the support angle and the bottom end having a bottom angle having a "┏┓" shape to the horizontal plate of the support angle and the bottom angle fixedly installed in the bottom and the enclosure through the anchor bolt and several bolts, the bottom angle And between the horizontal plate and the bottom surface of the support angle is characterized in that the installation of several seismic means.

At this time, the seismic means has a longitudinal shape of "ㅗ" shape in the vertical direction from the center of the anchor bolt through hole in the form of being fitted to the outside of the anchor bolt in the form of being fitted to the bottom of the normal compression spring A spacing retaining rod which allows the horizontal plate bottom of the bottom angle to float by a predetermined height (h) from the bottom surface by the force; It is installed between the upper surface of the disc of the spacing bar and the bottom of the horizontal plate of the bottom angle in the state of wrapping the spacing bar, so that the bottom of the horizontal plate of the bottom angle is floated by a predetermined height (h) from the bottom surface, and vibrating from the outside And a compression spring that absorbs the impact when applied. A bearing support case having a bearing insertion hole into which the self-aligning bearing is inserted and fixedly installed on an upper surface of the horizontal plate of the support angle; Inserted into the bearing insertion hole of the bearing support case in the state of being fitted to the outer circumferential surface of the anchor bolt protruding to the upper surface of the horizontal plate of the support angle through the gap retaining rod through hole drilled in the horizontal plate of the bottom angle and the support angle Self-aligning bearing when the support angle and the bottom angle is inclined in the opposite direction to the impact force applied to its ball when the impact is applied in the horizontal direction and the compression spring to absorb the impact force; The self-aligning bearing is fixed to the upper surface of the bearing support case through a washer and bolt coupled to the anchor bolt after being inserted into the anchor bolt to prevent the bearing insertion hole of the bearing support case, so that the self-aligning bearing is not separated from the bearing support case. The cover; characterized in that configured.

In addition, between the upper surface of the compression spring and the bottom of the horizontal plate of the bottom angle, or between any one of the bottom of the compression spring and the upper surface of the disc of the retaining rod absorbs and cushions the vibration and shock applied from the outside in the vertical and horizontal directions It is provided with an anti-vibration rubber plate, or absorbs and absorbs vibrations and shocks applied from the outside in the vertical direction between the upper surface of the compression spring and the bottom of the horizontal plate of the bottom angle and between the lower surface of the compression spring and the upper surface of the disc of the spacer. It is characterized in that the dust-proof rubber plate is further installed.

At this time, the switchgear in the two embodiments is characterized in that it comprises a distribution panel, MCC panel, low pressure panel, high voltage panel, transformer panel and special high-voltage panel.

As described above, according to the present invention, the support angle and the bottom angle are installed between the bottom of the enclosure and the concrete floor of the distribution panel including the distribution panel, MCC panel, low panel, high panel, transformer panel and special panel. It is equipped with a spring and an anti-vibration rubber plate, and it installs seismic means that buffers vibration and earthquakes in the vertical and horizontal directions twice, and cushions it when an impact such as mechanical vibration caused by an electromagnetic force due to an earthquake or a large power is supplied. It can not only prevent seismic damage such as falling by earthquake or vibration, or trembling of doors and enclosures, but also damages such as power outages and fires due to the flow of various components installed inside the switchgear enclosure. It is a very useful invention such that it can be prevented.

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

1 is a front view of a switchgear in which a first embodiment of the present invention is implemented, FIG. 2 is an exploded perspective view according to a first embodiment of the present invention, and FIG. 3 is a combination according to the first embodiment of the present invention. 4 shows an enlarged perspective view of the main part of the state, and FIG. 4 shows an enlarged side cross-sectional view of the main part of the switchgear according to the first embodiment of the present invention, and FIG. 5 is applied in the vertical direction in the seismic means applied to the first embodiment of the present invention. Fig. 6 shows an enlarged cross-sectional view of the main part showing a state of alleviating the impact force, and FIG. 6 shows an enlarged cross-sectional view of the main part showing a state of alleviating the impact force applied in the horizontal direction in the seismic means applied to the first embodiment of the present invention. In the first embodiment of the present invention is shown an enlarged cross-sectional view of the main portion showing a state in which the anti-vibration rubber plate is installed on both wings of the bottom angle.

8 is a front view of a switchgear in which a second embodiment of the present invention is implemented, FIG. 9 is an exploded perspective view according to a second embodiment of the present invention, and FIG. 10 is a second embodiment of the present invention. An enlarged perspective view of the main part of the coupled state according to the present invention, FIG. 11 illustrates an enlarged side cross-sectional view of the main part of the switchgear according to the second embodiment of the present invention, and FIG. 13 is an enlarged cross-sectional view showing main parts showing a state of alleviating the impact force applied in the vertical direction in the seismic means applied to the second embodiment of the present invention, and FIG. 14 is applied to the second embodiment of the present invention. The enlarged sectional view of the main part showing the state which alleviates the impact force applied to the horizontal direction from the seismic means is shown.

Accordingly, according to the first embodiment of the present invention,

In the switchgear having a configuration in which the enclosure (4) is fixed to the bottom surface by using several anchor bolts (2) and angles (3),

The angle (3) has a bottom angle 31, the longitudinal section of which has a "┗┛" shape and is fixed to the bottom surface by the anchor bolts 2, and the longitudinal section has a "┏┓" shape, the enclosure through the bolt (5) It consists of the support angle 32 fixedly installed in the bottom face of (4), It is characterized by several seismic means 7 provided between the said bottom angle 31 and the support angle 32.

At this time, the seismic means 7 has a bearing insertion hole 711 into which the self-aligning bearing 74 is fitted, and a bearing support case 71 fixedly installed on an upper surface of the horizontal plate 311 of the bottom angle 31. ;

A bearing stop ring 73 is provided at the lower end fitted to the self-aligning bearing 74, and the lower end is inserted into the bearing insertion hole 711 of the bearing support case 71 together with the self-aligning bearing 74. A support bolt 72 fitted through a bolt through hole 322 drilled into the support angle 32 and fixed to the horizontal plate 321 of the support angle 32 via a nut 6;

The support bolt 72 is inserted into the bearing insertion hole 711 of the bearing support case 71 in the state where the ball is coupled to the lower end of the support bolt 72 and the impact is applied in the horizontal direction from the outside. A self-aligning bearing 74 inclined in the opposite direction to which an impact force is applied, with the lower end coupled to its ball as a central axis and causing the compression spring 76 to absorb the impact force;

A hole 751 through which the support bolt 72 passes is provided at the center of the bottom angle 31 together with the bearing support case 71 through several bolts 5 on the upper surface of the bearing support case 71. A cover 75 which prevents the self-aligning bearing 74 and the support bolt 72 from being separated from the bearing support case 71 in a state in which the horizontal plate 311 is fixedly installed;

Between the upper surface of the horizontal plate 311 of the bottom angle 31 and the bottom surface of the horizontal plate 321 of the support angle 32 wraps the outer side of the support bolt 72, the bearing support case 71 and the cover 75 It is installed as a compression spring (76) for absorbing vibrations and shocks applied from the outside; characterized in that configured as.

In addition, the width W2 of the support angle 32 having the longitudinal section of the shape of "┏┓" is formed to be wider than the width W1 of the bottom angle 31 having the longitudinal shape of the shape of "┗┛", so as to vibrate, impact, or the like. When the support angle 32 is moved in the vertical up and down direction is characterized in that both wings are vertically moved up and down to the outside of both wings of the bottom angle (31).

In addition, any one between the upper surface of the compression spring 76 and the bottom surface of the horizontal plate 321 of the support angle 32 or between the bottom surface of the compression spring 76 and the upper surface of the horizontal plate 311 of the bottom angle 31. Between the surfaces there is further provided a dust-proof rubber plate (9a) (9b) for absorbing and buffering the vibration and shock applied from the outside in the vertical direction, or

Or between the upper surface of the compression spring 76 and the bottom surface of the horizontal plate 321 of the support angle 32 and between the bottom surface of the compression spring 76 and the upper surface of the horizontal plate 311 of the bottom angle 31. It is characterized in that the dust-proof rubber plate (9a) (9b) for further absorbing and buffering the vibration and shock applied in the vertical direction.

In addition, the support angle 32 is inclined toward either side due to the horizontal direction from the outside to either side of the inner surface of the wing of the support angle 32 or the outer surface of both wings of the bottom angle 31, so that both sides of the wing Is characterized in that the dust-proof rubber plate 10 to further absorb and cushion the vibration and impact applied to the wing of the bottom angle 31.

On the other hand, the second embodiment of the present invention,

In the switchgear having a configuration in which the enclosure (4) is fixed to the bottom surface by using several anchor bolts (2) and angles (3),

The angle 3 is composed of a support angle 32 having a "┗┛" shape in the longitudinal section and a bottom angle 31 having a "종단" shape in the longitudinal section of the support angle 32 and the bottom angle 31. The horizontal plates 311 and 321 are fixedly installed on the bottom surface 1 and the enclosure 4 through the anchor bolts 2 and the several bolts 5, but the bottom angle 31 and the support angle ( Between the horizontal plates 321 and the bottom surface 1 of the 32 is characterized in that several seismic means 7 is installed.

At this time, the seismic means (7) has a bottom surface in the form of being fitted to the outside of the anchor bolt (2) in the form having a longitudinal cross section "ㅗ" shape and the anchor bolt through hole 772 in the vertical direction in the center thereof A spacing retaining bar 77 installed on the surface 1 such that the bottom surface of the horizontal plate of the bottom angle floats by a predetermined height h from the bottom surface by the elastic force of the compression spring 76;

It is installed between the upper surface of the original plate 771 of the spacing bar 77 and the bottom of the horizontal plate 311 of the bottom angle 31 in the state of wrapping the spacing bar 77, and usually the bottom of the bottom angle 31 A compression spring 76 which floats by a predetermined height h from the bottom surface 1 and absorbs vibrations and shocks when applied from the outside;

A bearing support case 71 having a bearing insertion hole 711 into which the self-aligning bearing 74 is fitted and fixed to the upper surface of the horizontal plate 321 of the support angle 32 through several bolts 5; ;

The horizontal plate 321 of the support angle 32 to the upper surface of the support angle 32 through the gap retaining rod through holes 313 and 323 perforated in the horizontal plates 311 and 321 of the bottom angle 31 and the support angle 32. The support angle 32 and the bottom angle are inserted into the bearing insertion hole 711 of the bearing support case 71 in a state of being fitted to the outer circumferential surface of the protruding anchor bolt 2 and the impact is applied in the horizontal direction from the outside. A self-aligning bearing 74 inclined in an opposite direction to which impact force 31 is applied about its ball and causing the compression spring 76 to absorb the impact force;

The bearing support case through the washer (8) and the bolt (5) is fitted to the anchor bolt (2) and then coupled to the anchor bolt (2) in a form that prevents the bearing insertion hole (711) of the bearing support case (71) ( The cover 75 is fixed to the upper surface of the self-aligning bearing (74) so as not to be separated from the bearing support case (71);

In addition, any one between the upper surface of the compression spring 76 and the bottom surface of the horizontal plate 311 of the bottom angle 31 or between the lower surface of the compression spring 76 and the upper surface of the disc 771 of the spacing bar 77. Between the surfaces are further provided with anti-vibration rubber plates (11a) (11b) for absorbing and cushioning the vibrations and shocks applied in the vertical and horizontal directions from the outside, or the number of the top and bottom angle 31 of the compression spring (76) An anti-vibration rubber plate 11a that absorbs and cushions vibrations and shocks applied from the outside in the vertical direction between the bottom of the plate 311 and between the bottom of the compression spring 76 and the top of the disc 771 of the spacing retainer 77. 11b is further characterized in that it is installed.

At this time, the switchgear in the two embodiments is characterized in that it comprises a distribution panel, MCC panel, low pressure panel, high voltage panel, transformer panel and special high-voltage panel.

Referring to the effect of the switchgear having a seismic function of the present invention configured as described above are as follows.

First, the present invention in the known switchgear, as shown in Figure 1, the angle 3 has a longitudinal section "┗┛" shape and the bottom angle 31 is fixed to the bottom surface by the anchor bolt 2, the longitudinal section is It has a "┏┓" shape and consists of a support angle 32 fixedly installed on the bottom of the enclosure 4 via bolts, and between the bottom angle 31 and the support angle 32 several seismic means (7) or, as shown in Fig. 8, the angle (3) is composed of a support angle 32 having a "┗┛" shape in the longitudinal section and a bottom angle 31 having a "┏┓" shape in the longitudinal section The horizontal plates 311 and 321 of the support angle 32 and the bottom angle 31 are integrally fixed to the bottom surface 1 and the enclosure 4 through the anchor bolts 2 and several bolts 5. However, by installing several seismic means 7 between the horizontal plate 321 and the bottom surface 1 of the bottom angle 31 and the support angle 32 can protect the switchboard from earthquakes or vibrations. And that was the key technology components.

At this time, the known distribution panel includes a distribution panel, MCC panel, low pressure panel, high pressure panel, transformer panel and special high platen, the enclosure (4) itself fixed to the bottom surface 1 as shown in Figs. It has a configuration fixed to the bottom surface 1 by using a few anchor bolts (2) and angles (3) and general bolts (5).

On the other hand, the seismic means 7 in the first embodiment of the present invention, as shown in Figs. 2 to 7, the bearing support case 71, the support bolt 72, the self-aligning bearing 74, the cover And a compression spring 76.

In the above, the center of the bearing support case 71 has a configuration in which a bearing insertion hole 711 for inserting and installing the self-aligning bearing 74 is drilled and several bolts 5 together with a lid 75 to be described later. It is fixedly installed on the upper surface of the horizontal plate 311 of the bottom angle (31).

In addition, the support bolt 72 is installed separately from the anchor bolt 2 for fixing the bottom angle 31 to the concrete floor surface 2, the lower end is formed on the ball of the self-aligning bearing 74 The self-aligning bearing 74 itself is prevented from falling into the lower portion of the support bolt 72 by engagement of the bearing stop ring 73 in a state of being fitted in the coupling hole.

The lower end of the support bolt 72 is integrally inserted into the bearing insertion hole 711 of the bearing support case 71 together with the self-aligning bearing 74, and the upper end of the support bolt 72 is mounted on a horizontal plate (of the support angle 32). The support angle 32 is provided by a nut 6 which is fitted to protrude into the upper surface of the horizontal plate 321 of the support angle 32 through the bolt through hole 322 drilled in the 321 and then is fastened together with the washer 8. It will have a form that is fixed to the horizontal plate 321 of the.

In addition, the self-aligning bearing 74 is a bearing having a configuration in which the ball provided with the shaft hole in the center of the outer ring is freely rotatable as previously known, and the bearing center and the shaft center are automatically adjusted (or watched). The self-aligning bearing 74 is a bearing insertion hole 711 of the bearing support case 71 in a state in which the ball, which is rotatably installed on the outer ring, is coupled to the lower end of the support bolt 72 as described above. After being inserted into the inside of the bearing support case 71 by the cover 75 has a configuration that is fixed so as not to be separated from the upper portion of the bearing insertion hole 711.

As described above, the self-aligning bearing 74 provided between the lower end of the support bolt 72 and the bearing support case 71 is normally supported by the support bolt 72 when no impact is applied from the outside. While maintaining the state perpendicular to the case 71 and installed vertically, when the impact is applied in the horizontal direction from the outside in response to the impact force, the lower end of the support bolt 72 is coupled to its own ball as a central axis The compression spring 76 eccentrically compresses and expands in response to the inclination of the horizontal plate 321 of the support angle 32 inclined in response to the inclination angle of the support bolt 72 by inclining in the opposite direction to which the impact force is applied. And it absorbs the impact force transmitted in the horizontal direction.

In addition, the cover 75 has a configuration in which a hole 751 through which the support bolt 72 passes is bored in the center thereof, and has a bearing support case through several bolts 5 on the upper surface of the bearing support case 71. 71 and the lower end of the self-aligning bearing 74 and the support bolts 72 in a state in which it is fixed to the horizontal plate 311 of the bottom angle 31 to prevent it from being separated from the bearing support case 71. To perform.

In addition, the compression spring 76 is a support bolt 72 and the bearing support case 71 and the cover between the upper surface of the horizontal plate 311 of the bottom angle 31 and the bottom surface of the horizontal plate 321 of the support angle 32. It is installed in a form surrounding the outside of the 75 to perform the earthquake-resistant function to absorb the vibration and shock applied from the outside.

At this time, the width W2 of the horizontal plate 321 of the support angle 32 having the longitudinal section of the "┏┓" shape is the width W1 of the horizontal plate 311 of the bottom angle 31 of the longitudinal section having the shape of "┗┛". By forming a wider than) the two sides of the support angle 32 in the usual case as shown in Figures 3 and 5 has a form to surround a portion of the outer side of both wings of the bottom angle 31, so that various foreign matter support angle (31) Through the gap formed between the wing and the bottom angle 32 can not only prevent the flow into the inner space portion, but also receive the elastic force of the compression spring 76 by the vibration or shock in the normal state as described above When the support angle 32 is moved vertically and vertically, both wings of the support angle 32 smoothly move up and down vertically from the outside of both wings of the bottom angle 31 without being interfered with the wings of the bottom angle 32. Can be moved.

Therefore, in the seismic means 7 according to the first embodiment of the present invention, the support bolts 72 are used for the self-aligning bearing 74 for external vibration or impact force transmitted in the vertical up and down direction due to an earthquake or an impact. It does not rotate about the ball and remains in the vertical direction as it is, and in response to the magnitude of the impact force applied in the vertical direction, only the support angle 32 together with the enclosure 4 is supported by a virtual bolt as shown in FIG. When moved along the 72 in the vertical up and down direction, the compression spring 76 is contracted and expanded in the vertical up and down direction to actively absorb.

In addition, the vibration or impact force transmitted in the horizontal direction, the impact force transmitted through the enclosure 4 and the support angle 32 is transmitted to the ball of the self-aligning bearing 74 through the support bolt 72 to the automatic The lower end of the support bolt 72 having the state of being fitted into the bearing insertion hole 711 of the bearing support case 71 together with the circumferential bearing 74 has an impact force around the ball of the self-aligning bearing 74 as shown in FIG. 6. Since the inclination is inclined in the opposite direction to the applied direction, the enclosure 4 and the support angle 32 are also inclined at an angle corresponding to the inclination of the support bolt 72, as well as the compression spring 76 corresponding thereto. The other side is expanded so that the impact force in the horizontal direction is actively absorbed so that the impact force is not transmitted to the enclosure 4 itself.

However, since the impact or vibration applied in the vertical and horizontal directions from the outside will have different amplitudes and wavelengths according to their sizes, the shock having a specific frequency when buffering the shock and vibration applied from the outside with only the compression spring 76 alone. However, in the vibration, the compression spring 76 may exhibit a form that does not absorb all of them and oscillates by itself.

In addition, when the shock or vibration applied in the horizontal direction is very large, the support angle 32 is inclined to one side, and both wings of the bottom angle 31 hit the wings of the bottom angle 31 will exert a large impact force on the bottom angle 31. There is also concern.

Accordingly, in the present invention, between the upper surface of the compression spring 76 and the bottom surface of the male plate 321 of the support angle 32 and between the lower surface of the compression spring 76 and the upper surface of the horizontal plate 311 of the bottom angle 31. The vibration springs and the vibration damping plates 9a and 9b are further interlocked with each other by installing vibration-proof rubber plates 9a and 9b between one or both of the surfaces. It was able to buffer the absorption in double.

That is, when an impact force or vibration is applied in the horizontal direction from the outside of the enclosure 4 provided with the first embodiment of the present invention, the compression spring 76 repeatedly contracts and expands vertically and vertically in the horizontal direction in response to this. In addition to actively absorbing the impact force and vibration applied, the vibration-resistant rubber plates 9a and 9b provided on either or both of the top and bottom surfaces of the spring 76 are also applied in the horizontal direction. Since the vibration is absorbed and absorbed by itself, not only the compression spring 76 can completely prevent oscillation in the shock or vibration having a specific frequency, but also the compression spring 76 and the anti-vibration rubber plate 9a ( 9b) is absorbed and buffered in a double, it is able to completely absorb and buffer the shock or vibration applied from the outside.

At this time, the anti-vibration rubber plates (9a) (9b) as described above between the upper surface of the compression spring 76 and the bottom of the horizontal plate 321 of the support angle 32 or the bottom and bottom angle of the compression spring 76 Even if installed between any one of the upper surface of the horizontal plate 311 of (31) can absorb and cushion to some extent the vibration and impact applied from the outside in the vertical direction, but the impact and vibration applied from the outside is very large In view of the case, between the upper surface of the compression spring 76 and the bottom surface of the horizontal plate 321 of the support angle 32 and between the bottom surface of the compression spring 76 and the upper surface of the horizontal plate 311 of the bottom angle 31. It is more preferable to install in all so that these may be absorbed by the compression spring 76 above and below.

In addition, in the present invention, by installing the anti-vibration rubber plate 10 as shown in Figs. 5 and 7 on either side of the inner surface of both wings of the support angle 32 or the outer surface of both wings of the bottom angle 31, the outside of the horizontal The support angle 32 is inclined to one side corresponding to the direction in which the support bolt 72 is inclined due to the impact or vibration applied in the direction, and the support angle 32 is supported when both of the wings strike the wings of the bottom angle 31. Since the anti-vibration rubber plate 10 installed on either side of the inner surface of both wings of the angle 32 or the outer surface of the both sides of the bottom angle 31 absorbs and buffers the anti-vibration rubber plate 10, a large impact or vibration is applied in the horizontal direction. Not only can the floor angle 31 be prevented from being impacted, but both wings of the support angle 32 and both wings of the bottom angle 31 are deformed by the impact force. It is possible to prevent the body from occurring.

Of course, since the impact force and vibration are applied in the horizontal direction as described above, when the support angle 32 is inclined to any one side corresponding to the direction in which the support bolt 72 is inclined, the compression spring 76 as described above. In addition, the anti-vibration rubber plates 9a and 9b also function so that one side is compressed and the other side is expanded, and actively absorbs the impact force in the horizontal direction through the double so that the impact force is not transmitted to the enclosure 4 itself. Will be parallel.

On the other hand, the seismic means 7 in the second embodiment of the present invention, as shown in Figs. 9 to 14, the gap retaining rod 77, the compression spring 76, the bearing support case 71, self-aligning It consists of what comprised with the bearing 74 and the lid | cover 75.

At this time, the spacing retaining bar 77 has a shape in which the bar is formed to protrude from the upper surface of the disc 771, the longitudinal section has a substantially "ㅗ" shape and the anchor bolt through hole 772 in the vertical direction from the center thereof ) Has a perforated shape.

The gap retaining rod 77 having such a configuration is installed in the form of standing on the bottom surface 1 while being fitted to the outside of the anchor bolt 2, and the upper end thereof is larger than its own outer diameter and the outer diameter of the self-aligning bearing 74. Rather, it is installed in the form of being inserted into the gap retaining rod through hole 313, 323 perforated in the horizontal plate (311, 321) of the bottom angle (31) and the support angle (32), and is compressed normally Due to the elastic force of the spring 76, the bottom surface of the bottom angle 31 serves to float from the concrete floor surface 1 by a predetermined height h.

At this time, the overall height of the spacing retaining bar 77, or the height h of the gap formed between the bottom surface 1 and the bottom surface 1 of the bottom angle 31 is the total weight of the switchgear panel and the coefficient of elasticity of the compression spring 76. It is designed or set in consideration of the above.

In addition, the compression spring 76 is in the state surrounding the spacing bar 77, the lower end is mounted on the upper surface of the disc 771 of the spacing bar 77, the upper end of the horizontal plate of the bottom angle (31) 311) It is installed in the state supported by the bottom, and in normal times, the bottom surface of the bottom angle 31 through the spacing function of the spacing holding rod 77 and its own elasticity as shown in Figure 12 from the bottom surface (1) It performs a function to float by a predetermined height (h), and when vibrations and shocks are applied from the outside to perform a seismic function to absorb it.

In addition, the bearing support case 71 has a bearing insertion hole 711 into which the self-aligning bearing 74 is fitted, and is fixedly installed on the upper surface of the horizontal plate 321 of the support angle 32 through the bolt 5. When the impact is applied in the horizontal direction from the outside, itself rotates around the ball of the self-aligning bearing 74 with the outer ring of the self-aligning bearing 74 is inserted into its own bearing insertion hole 711, the support angle ( 32 and the lower body 31 including the bottom angle 31 is rotated and inclined at an angle corresponding to the impact force in the opposite direction to which the impact force is applied, as well as the bottom of the horizontal plate 321 of the bottom angle 31 and the The compression spring 76 is provided between the upper surface of the disk 771 of the spacer bar 77 to absorb the impact force.

In addition, the self-aligning bearing 74 passes through the gap retaining rods 77, and the gap retaining rods pass through the horizontal plates 311 and 321 of the bottom angle 31 and the support angle 32, respectively. It is fixed to the upper surface of the horizontal plate 321 of the support angle 32 in the form fitted to the outer circumferential surface of the anchor bolt (2) protruding to the upper surface of the horizontal plate 321 of the support angle 32 through (313) (323) It has a configuration inserted into the bearing insertion hole 711 of the bearing support case 71.

The self-aligning bearing 74 installed as described above includes a bearing support case 71 because the outer ring itself is not rotated at the outer circumferential surface of the ball when the impact force is applied in the normal or vertical direction without any impact from the outside. The support angle 32 and the bottom angle 31 maintain the horizontal state, or move vertically and vertically along the gap retaining rod 77 and the anchor bolt 2 in response to the impact force applied in the horizontal direction, and compress them. The impact force is transmitted to the spring 76 so that the compression spring 76 absorbs the impact force in the vertical direction, and when the impact is applied in the horizontal direction from the outside, the ball itself has a state fitted to the anchor bolt 2. Since only the outer ring of the self-aligning bearing 74 coupled to the outside of the ball does not rotate, it rotates in response to the amount of impact applied in the horizontal direction. The bearing support case 71, the support angle 32, the bottom angle 31, and the enclosure 4 in which the outer ring of the coaxial bearing 74 is coupled to the bearing insertion hole 71 have an impact force against the horizontal direction. The compression spring is inclined at an angle corresponding to the impact force in the opposite direction to be applied, and is provided between the bottom of the horizontal plate 321 of the bottom angle 31 and the top surface of the disc 771 of the spacing retainer 77 ( 76) is eccentric compression and expansion and absorbs the impact force transmitted in the horizontal direction.

In addition, the cover 75 has a washer shape and is fitted to the anchor bolt (2) in the form of blocking the upper surface of the bearing insertion hole (711) of the bearing support case 71 washer 8 coupled to the anchor bolt (2) And fixed to the upper surface of the bearing support case 71 through the bolt (5), thereby performing the function of preventing the self-aligning bearing 74 from being separated from the bearing support case (71).

Accordingly, in the seismic means 7 according to the second embodiment of the present invention, the external vibration and the impact force transmitted in the vertical up and down direction due to the earthquake or the impact, etc., correspond to the magnitude of the impact force as shown in FIG. 4) together with the support angle 32 and the bottom angle 31 and the bearing support case 71 the bottom face of the bottom face 1 and the bottom angle 31 along the anchor bolt 2 and the spacing rod 77. When moving up and down in the vertical up and down direction within the height h formed therebetween, the compression spring 76 is reduced and expanded in the vertical up and down direction and actively absorbs the impact force itself.

In addition, with respect to the vibration or impact force transmitted in the horizontal direction, as shown in Figure 14 anchor bolt (2), the gap retaining rod 77, the ball and cover 75 of the self-aligning bearing 74 maintains the original state Instead, the outer ring of the enclosure 4 and the support angle 32, the bottom angle 31, the bearing support case 71 and the self-aligning bearing 74 are opposite to the impact direction in which the impact force is applied to the horizontal direction. Rotate around the ball of the self-aligning bearing 74 as a compression spring 76 also responds to the inclination when the one side is compressed and the other side is expanded and actively absorb the impact force in the horizontal direction to the enclosure (4) itself The impact force will not be transmitted.

That is, the vibration or impact force transmitted in the horizontal direction does not flow or incline the ball of the anchor bolt 2, the spacing bar 77 and the self-aligning bearing 74 at all, as shown in FIG. 4) and the bearing support case 71 fixed to the upper surface of the horizontal plate 321 of the support angle 32, including the support angle 32 and the bottom angle 31, in response to the impact force transmitted in the horizontal direction Since it is inclined at an angle corresponding to the outer ring rotation angle of the self-aligning bearing 74 rotated along the outer circumferential surface of the ball, the compression spring 76 also corresponds to the one side is compressed and the other side is expanded and the impact force in the horizontal direction is actively It will be absorbed so that the impact force is not transmitted to the enclosure (4) itself.

On the other hand, in the second embodiment of the present invention, if necessary, between the upper surface of the compression spring 76 and the bottom surface of the horizontal plate 311 of the bottom angle 31 or the bottom surface of the compression spring 76 and the spacing bar ( 77 further provided the anti-vibration rubber plates 11a and 11b between any one of the upper surfaces of the original plate 771, or further provided the anti-vibration rubber plates 11a and 11b to both of them, so as to be horizontal and vertical from the outside. When the impact force or vibration is applied in the direction, the compression spring 76 repeatedly contracts and expands, and actively absorbs the impact force and vibration applied from the outside, as well as one or both of the top and bottom surfaces of the spring 76. The anti-vibration rubber plates 11a and 11b, which are installed at both ends, absorb and buffer shock force and vibration applied from the outside by themselves, and thus the compression spring 76 is prevented from impact or vibration having a specific frequency. Not only can the oscillation be completely blocked, but the shock springs and the vibration damping rubber plates 11a and 11b are absorbed and buffered in duplicate so that they can completely absorb and cushion the shocks and vibrations applied from the outside. It can be.

In this case, the dustproof rubber plates 11a and 11b are also spaced apart from the top surface of the compression spring 76 and the bottom of the horizontal plate 311 of the bottom angle 31 or the bottom surface of the compression spring 76 as described above. Even if installed between any one of the upper surface of the disk 771 of the retaining rod 77 can absorb and cushion the vibration and impact applied from the outside to some extent, but the impact and vibration applied from the outside In view of this, both the upper surface of the compression spring 76 and the lower surface of the horizontal plate 321 of the support angle 32 and the lower surface of the compression spring 76 and the upper surface of the horizontal plate 311 of the bottom angle 31 are installed. It is more preferable to absorb these on both sides.

Although the above-described embodiments have been described with respect to the most preferred embodiments of the present invention, it is not limited to the above embodiments, and it will be apparent to those skilled in the art that various modifications can be made without departing from the technical spirit of the present invention.

1 is a front view of a switchgear in which the first embodiment of the present invention is carried out.

2 is an exploded perspective view according to a first embodiment of the present invention.

Figure 3 is an enlarged perspective view of the main portion of the coupling state according to the first embodiment of the present invention.

Figure 4 is an enlarged side cross-sectional view of the main portion of the switchgear was implemented the first embodiment of the present invention.

Figure 5 is an enlarged cross-sectional view showing the main portion showing a state to alleviate the impact force applied in the vertical direction in the seismic means applied to the first embodiment of the present invention.

Figure 6 is an enlarged cross-sectional view showing the main portion showing a state to alleviate the impact force applied in the horizontal direction in the seismic means applied to the first embodiment of the present invention.

Figure 7 is an enlarged cross-sectional view showing the main portion showing a state in which the anti-vibration rubber plate is installed on both wings of the bottom angle in the first embodiment of the present invention.

8 is a front view of a switchgear according to a second embodiment of the present invention;

9 is an exploded perspective view according to a second embodiment of the present invention.

Figure 10 is an enlarged perspective view of the main portion of the coupling state according to the second embodiment of the present invention.

11 is an enlarged side cross-sectional view of main parts of a switchgear in which a second embodiment of the present invention is carried out;

12 is an enlarged front sectional view of the main portion of the engaged state according to a second embodiment of the present invention.

Figure 13 is an enlarged cross-sectional view showing the main portion showing a state to alleviate the impact force applied in the vertical direction in the seismic means applied to the second embodiment of the present invention.

Figure 14 is an enlarged cross-sectional view showing the main portion showing a state to alleviate the impact force applied in the horizontal direction in the seismic means applied to the second embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

1: bottom surface 2: anchor bolt

3: angle 31: bottom angle

32: support angle 311, 321: horizontal plate

313, 323: spacing bar through hole 322: bolt through hole

4: enclosure 5: bolt

6 nut 7 seismic means

71: bearing support case 711: bearing insertion hole

72: support bolt 73: bearing stop ring

74: self-aligning bearing 75: cover

751: hole 76: compression spring

77: spacer bar 771: disc

772: anchor bolt through hole 8: washer

9a, 9b, 10, 11a, 11b: dustproof rubber plate

Claims (11)

In the switchgear having a configuration for fixing the enclosure to the floor using several anchor bolts and angles, The angle consists of a bottom angle of the end surface having a "┗┛" shape is fixed to the bottom surface by the anchor bolt and a support angle is fixed to the bottom of the enclosure through the bolt having a "┏┓" shape and the longitudinal section, Install several seismic means between floor angle and support angle, The seismic means, A bearing support case having a bearing insertion hole into which the self-aligning bearing is inserted and fixedly installed on an upper surface of the horizontal plate of the bottom angle; The bearing stop ring is installed at the lower end fitted to the self-aligning bearing, and the lower part is inserted into the bearing insertion hole of the bearing support case together with the self-aligning bearing, and the upper part is inserted through the bolt through hole drilled at the support angle to be supported by the nut. A support bolt fixed to the horizontal plate of the angle; When the ball is inserted into the bearing insertion hole of the bearing support case in the state where the inner ball is coupled to the lower end of the support bolt and the impact is applied in the horizontal direction from the outside, Self-aligning bearing inclined in the opposite direction to which the impact force is applied and causing the compression spring to absorb the impact force; The self-aligning bearing and the support bolt are provided in the center of the bearing support case with a hole through which the support bolt passes and fixedly installed on the horizontal plate of the bottom angle together with the bearing support case through several bolts on the upper surface of the bearing support case. A cover that does not escape from the; And a compression spring installed between the upper surface of the horizontal angle of the bottom angle and the lower surface of the horizontal angle of the support angle to cover the outside of the support bolt, the bearing support case, and the cover to absorb vibrations and shocks applied from the outside. Switchgear with a seismic function to. delete The method according to claim 1, An anti-vibration rubber plate which absorbs and absorbs vibrations and shocks applied in the vertical direction between the upper surface of the compression spring and the bottom of the horizontal plate of the support angle or between the bottom surface of the compression spring and the horizontal plate of the bottom angle. Switchgear with a seismic function, characterized in that further installed. The method according to claim 1, Between the upper surface of the compression spring and the bottom of the horizontal plate of the support angle, and between the bottom of the compression spring and the upper surface of the horizontal plate of the bottom angle, a dustproof rubber plate which absorbs and absorbs vibrations and shocks applied in the vertical direction from the outside is further installed. Switchgear having a seismic function, characterized in that. The method according to claim 1, The support angle is inclined due to being applied horizontally from the outside to either one of the inner surface of both wings of the support angle or the outer surface of both wings of the bottom angle, and absorbs and absorbs vibrations and shocks caused by both of the wings hitting the wings of the bottom angle. Switchgear with a seismic function, characterized in that the dustproof rubber plate further installed. The method according to claim 1, The width of the support angle is formed to be wider than the width of the bottom angle seismic function characterized in that both wings are vertically moved up and down outside the two wings of the bottom angle when the support angle is moved vertically up and down by vibration or impact Switchgear having a. In the switchgear having a configuration for fixing the enclosure to the floor using several anchor bolts and angles, The angle consists of a support angle having a "┗┛" shape in the longitudinal section and a bottom angle having a "┏┓" shape in the longitudinal section so that the horizontal plate of the support angle and the bottom angle is connected to the bottom surface through the anchor bolt and several bolts. It is fixedly installed in the installation, but between the floor and the horizontal surface of the bottom angle and the support angle of several seismic means is installed, The seismic means, In the vertical direction from the center, the anchor bolt through-hole is installed in the form of being fitted to the outer side of the anchor bolt in the form of being installed on the bottom surface, the height of the horizontal plate bottom of the bottom angle is normally determined from the bottom surface by the elasticity of the compression spring ( h) a spacing rod that floats as much as; It is installed between the upper surface of the disc of the spacing bar and the bottom of the horizontal plate of the bottom angle in the state of wrapping the spacing bar, so that the bottom of the horizontal plate of the bottom angle is floated by a predetermined height (h) from the bottom surface, and vibrating from the outside And a compression spring that absorbs the impact when applied. A bearing support case having a bearing insertion hole into which the self-aligning bearing is inserted and fixedly installed on an upper surface of the horizontal plate of the support angle; Inserted into the bearing insertion hole of the bearing support case in the state of being fitted to the outer circumferential surface of the anchor bolt protruding to the upper surface of the horizontal plate of the support angle through the gap retaining rod through hole drilled in the horizontal plate of the bottom angle and the support angle Self-aligning bearing when the support angle and the bottom angle is inclined in the opposite direction to the impact force applied to its ball when the impact is applied in the horizontal direction and the compression spring to absorb the impact force; The self-aligning bearing is fixed to the upper surface of the bearing support case through a washer and a bolt coupled to the anchor bolt after being inserted into the anchor bolt to prevent the bearing insertion hole of the bearing support case to prevent the self-aligning bearing from being separated from the bearing support case. Switchgear having a seismic function, characterized in that consisting of; delete The method according to claim 7, Anti-vibration that absorbs and absorbs vibrations and shocks applied in the vertical and horizontal directions from the outside between the upper surface of the compression spring and the bottom of the horizontal plate of the bottom angle or between the lower surface of the compression spring and the upper surface of the disc of the spacing bar. A switchgear having a seismic function, further comprising a rubber plate. The method according to claim 7, Between the upper surface of the compression spring and the bottom of the horizontal plate of the bottom angle and between the bottom of the compression spring and the upper surface of the disc of the retaining rod further installed a dustproof rubber plate that absorbs and cushions the vibration and shock applied from the outside in the vertical direction. Switchgear with a seismic function characterized by. delete

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