KR102441228B1 - Smart seismic device with life span and earthquake warning function - Google Patents

Abstract

The present invention relates to a smart seismic device with a lifespan and earthquake warning functions, which is installed under seismic-protected equipment such as a distribution board and the like. More specifically, between an upper base (20) below the seismic-protected equipment and a lower base (10) on the bottom, installed is a cushioning means (30) composed of a plate spring (32) as a core component for seismic isolation, a vibration-proof rubber (33), and a buffer spring (34), to provide cushioning support against vibrations and shocks caused by earthquakes. A switch operating portion (40) is provided in the center of the upper base (20) to be able to move up elastically. The switch operating portion (40) descends when the lifespan of the cushioning means is over, and stops at a stop operating portion (50) on the lower base, causing an operating rod (62) of a warning switch (60) installed on the upper base to be automatically pushed. When an earthquake occurs or the lifespan of a cushioning means expires, an automatic alarm is activated, so the smart seismic device helps the safe operation of the seismic-protected equipment can be promoted.

Description

Smart seismic device with life span and earthquake warning function

The present invention relates to a seismic device installed under a seismic protection facility such as a switchboard, and more particularly, to buffer and support vibration or shock caused by an earthquake, but the lifespan of the buffer means, which is a key part for earthquake resistance as well as earthquake warning, is reduced. It is related to a smart earthquake-resistant device having a lifespan and earthquake warning function that promotes safe driving by detecting the exhaustion and operating an alarm.

In general, a switchgear, one of earthquake-resistant protection facilities, is an electrical device used for monitoring, control, and protection of an electrical system when receiving and distributing power sent from a power plant or substation to a customer.

In such a switchgear, a transformer, a switchgear, an arrester, a power fuse, a converter, a circuit breaker, a detector, a computerized power meter, etc. are installed inside the enclosure.

Since the switchboard is fixedly installed on the upper part of the lower mountain frame installed on the top of the concrete structure, when an earthquake occurs, vibration or shock caused by the earthquake is transmitted to the switchboard as it is, causing damage and short circuiting of the internal electrical equipment, resulting in power supply. There were serious problems such as being stopped or a fire occurred.

For this reason, it is essential to install and use seismic devices in the switchgear.

Such conventional seismic devices of switchgears are provided in various structures, and cushioning means such as cushioning members and buffering springs are installed between upper and lower dies to absorb vibrations or shocks caused by earthquakes.

However, the conventional earthquake-resistant device provides a function to protect the switchboard by partially buffering vibrations or shocks applied to the switchboard when an earthquake occurs, but does not have a separate structure to detect whether the earthquake-resistant device is operating normally, thus promoting safe operation of the earthquake-resistant device There were limits to

In particular, in the case of the shock absorber, the core part of the shock absorber is damaged by repeated vibration or shock absorption over time, and when the life is over, the support and elasticity of the shock absorber are greatly reduced. There was a limit to promoting safe driving because it had to be managed while checking directly.

That is, when the lifespan of the buffer means has expired, if it is not inspected and replaced in a timely manner, the earthquake-resistant function cannot be properly performed, thereby causing a safety accident as in the prior art.

Registered Patent No. 10-1081571 (November 02, 2011) Registered Patent No. 10-2332485 (November 24, 2021)

The present invention was invented to solve all the problems of the prior art, and it buffers and supports vibrations or shocks caused by earthquakes. The purpose of this is to promote safe operation as well as convenience in management as it operates an alarm.

The present invention provides a lower base installed on the floor, an upper base installed under the seismic protection equipment, installed between the lower base and the upper base, and an upper cover, a lower leaf spring, and a vibration-proof rubber and cushioning inside the leaf spring. A shock-absorbing means for buffering and supporting vibrations or shocks caused by earthquakes by combining a spring, and a switch for installing a switch operating rod with a restoring spring inserted into the lower part of the upper cover through an insertion hole and fastening an adjustment nut to the upper part to support installation A stop operation unit installed on the upper part of the lower base, but the lower end of the switch operation rod stops working when the buffer means is descended due to an earthquake or the end of its service life, and an operation rod installed on the upper base of the upper base to the upper position of the switch operation rod It is characterized in that it consists of an alarm switch that operates an alarm by pushing the operation rod while the switch operation rod stops by the stop operation tool when the buffer means is installed and descends due to an earthquake or the end of its lifespan.

According to the present invention, an upper spring guide coupled to the lower center of the upper cover to guide the upper portion of the buffer spring, and a lower spring guide integrally formed outside the stop actuator to guide the lower portion of the buffer spring are formed, the The stop operation tool is screwed to the upper part of the fastening bolt inserted into the insertion hole from the lower part of the lower base, and the lower part of the fastening bolt is characterized in that it is configured to be fixedly installed by the insertion of the mounting plate and the screw fastening of the tightening nut.

According to the present invention, an inclined portion is formed on the upper portion of the switch operation rod, and an inclined portion corresponding to the inclined portion of the switch operation rod is formed on the operation rod so that the switch operation rod is configured to horizontally retract when the operation rod is pushed. have.

The present invention provides a cushioning means consisting of a leaf spring, a vibration-proof rubber, and a buffer spring, which are key parts for earthquake resistance, between the upper base of the lower part of the earthquake-resistant protection facility and the lower base of the floor, so as to effectively buffer and support against vibration and shock caused by an earthquake. However, when the switch operating part installed in the center of the upper base so as to be resiliently movable to the upper part is stopped at the stop operation port of the upper part of the lower base when an earthquake or the life of the buffer means has expired and descends, the operation rod of the alarm switch installed on the upper part of the upper base Because the push operation automatically activates an alarm that an earthquake or the life of the buffer means is over, it has the effect of continuously promoting the safe operation of the earthquake-resistant protection equipment as well as the convenience of management by the administrator.

1 is an enlarged view showing the main part of the switchboard to which the seismic device of the present invention is applied.
Figure 2 is a cross-sectional configuration diagram showing the seismic device of the present invention.
3 is an exploded cross-sectional view of FIG.
Figure 4 is a perspective view showing the main part of the buffer means of the present invention.
Figure 5 is a main view showing the switch operating unit of the present invention.
Figure 6 is a half-sectional perspective view showing the stop operation mechanism of the present invention.
Figure 7 is a cross-sectional configuration diagram showing the operating structure of the present invention seismic device.
8 is a circuit diagram showing an alarm control configuration of the seismic device of the present invention.

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

The smart earthquake-resistant device 100 having a lifespan and earthquake warning function of the present invention is a lower base 10, an upper base 20, a buffer means 30, and a switch operation unit 40 as shown in FIGS. 1 to 6 . ), a stop operation tool 50 and an alarm switch 60 to buffer and support vibration or shock caused by an earthquake, but alarm by detecting that the life of the buffer means, which is a key part for earthquake resistance, has expired as well as earthquake warning made to work.

The lower base 10 is fixed to the floor, the upper base 20 is installed in the lower part of the seismic protection equipment 2 such as a switchboard, and the buffer means 30 is installed between the lower base and the upper base. make up

The cushioning means 30 includes an upper cover 31 in the form of a flat plate, a lower leaf spring 32 installed under the upper cover in an inverted trapezoidal shape and forming horizontal flanges 32a on both sides of the upper side, and the It consists of an inverted trapezoidal anti-vibration rubber 33 installed inside the leaf spring, and a cylindrical buffer spring 34 inserted and installed in a through hole 33a formed in the inner center of the anti-vibration rubber, wherein the upper cover 31 ) and the lower plate spring 32, by inserting the fastening member 38 into the flanges 32a and the upper base 20 on both sides of the lower plate spring 32 and spirally fastening with the nut 39 to be fixedly coupled.

At this time, through holes 31b, 32b, and 22 for the fastening member 38 are formed in the flange 32a and the upper base 20 of the upper cover 31 and the lower leaf spring, and the lower leaf spring The through-hole (32b) formed in the flange of the is formed in the form of a long hole so that it can flow left and right in the event of vibration or impact caused by an earthquake.

And in the buffer means 30, the lower plate spring 32 and the buffer spring 34 mainly support vertical vibration or shock, and the vibration-proof rubber 33 is disposed between the lower plate spring and the buffer spring in horizontal and vertical directions. It is to reduce the residual vibration or shock applied to the seismic protection equipment so that the vibration or shock applied to the seismic protection equipment is buffered in multiple stages.

The switch actuating unit 40 inserts and installs the switch actuating rod 41 into which the restoration spring 45 is inserted from the lower part of the insertion hole 31a formed in the upper cover 31, and the switch actuating bar 41 at the upper part of the upper cover. It is configured to be installed by screwing the adjusting nut 43 to the upper part.

The stop operation member 50 is installed so as to be inserted into the buffer spring 34 on the upper part of the lower base 10, but the lower end of the switch operation rod 41 is the upper contact surface 51 when the buffer means is earthquake or the lifespan has expired. It comes into contact with and is configured to stop working.

At this time, the stop operation member 50 is screwed to the fastening bolt 55 inserted into the insertion hole 12 in the lower part of the lower base through the lower screw hole 52, but the mounting plate 56 is located at the lower part of the fastening bolt. ) is inserted and the tightening nut 57 is screwed in to be fixedly installed.

The stop operation member 50 is adjustable in height where the lower end of the switch operation rod 41 is stopped according to the vertical position, so that the alarm operation time can be adjusted and set according to the degree of vibration or impact caused by the earthquake. As the stop operation tool 50 is positioned upward, the alarm is configured to operate at a time when vibration or impact strength due to an earthquake is lower than at a lower position, and when the supporting force and elastic force of the buffering means decrease to a lesser extent.

In addition, the buffer spring 34 of the cushioning means is configured to install a guide to perform a guide role when the upper and lower elastic operation is performed, but the upper spring is installed in the center of the lower part of the upper cover 31 to guide the upper part of the buffer spring 34 . A guide 44 and a lower spring guide 54 integrally formed on the outside of the stop actuator 50 to guide the lower portion of the buffer spring 34 are installed. The upper spring guide 44 is located in the center of the lower portion of the upper cover 31 and is configured to penetrate through the insertion hole 31a of the upper cover to be connected to the center.

The alarm switch 60 is coupled and installed on the installation bracket 61 separately installed on the upper base 20, but the operation rod 62 is installed at the upper position of the switch operation rod, so that the buffer means is earthquake or the lifespan has expired. When descending, the switch operation rod is configured to operate an alarm by pushing the operation rod while the stop operation is stopped on the top of the stop operation member (50).

That is, when the alarm switch 60 operates as an alarm, the normal operation lamp is turned on during normal operation as in the alarm circuit of FIG. 8 , and when the alarm switch operates as an alarm, the replacement lamp and the earthquake lamp are turned on. At this time, the self-maintenance circuit maintains the lighting state even after the earthquake has ended, so it can be checked after the confirmation. .

In addition, an inclined portion 42 is formed on the switch operation rod 41, and an inclined portion 63 corresponding to the inclined portion 42 of the switch operation rod is formed on the operation rod 62 of the alarm switch. The operation rod 41 is configured to horizontally retreat by pushing the operation rod 62 while ascending and descending.

In addition, the installation bracket 61 is uniformly coupled with the buffer means 30 and the upper base 20 by the fastening member 38 to enable in-place assembly and installation of the alarm switch 60 .

As an unexplained reference numeral, 32c is a through hole formed in the lower center of the lower plate spring 32 and into which the tightening bolt 55 is inserted, 41a is a head formed at the bottom of the spring operation rod 41, 61a is formed in the center of the installation bracket, Each of the through-holes into which the switch operation rod 41 is inserted is shown.

Next, we will look at the operation and operation of the present invention configured as described above.

First, describing the process of assembling the seismic device of the present invention, the upper cover 31, the lower leaf spring 32 ), the vibration-proof rubber 33 and the shock-absorbing spring 34 are assembled to the inside of the leaf spring, and the shock-absorbing means 30 is installed.

At this time, an installation bracket to which the upper base 20 and the alarm switch 60 are coupled by the fastening bolt 38 and the nut 39 coupled to the outside of the upper cover 31 and the lower leaf spring 32 of the buffer means. (61) are assembled together and installed in the correct position.

In addition, the switch operation rod 41 into which the restoration spring 45 is inserted is inserted into the lower part of the upper cover 31 through the insertion hole 31a and then the adjustment nut 43 is fastened to the upper part of the switch operation part. (40) is supported and installed, and the stop operation tool 50 inserted into the internal position of the buffer spring 34 is screwed to the tightening bolt 55 at the lower base of the lower base, and then the mounting plate 56 is coupled to the lower portion of the tightening bolt. It is to be assembled and installed by screwing the tightening nut 57 together with.

In addition, the alarm switch 60 is installed so that the operation rod 62 is positioned above the switch operation rod 41 of the switch operation part on the upper base 20 .

In the seismic device of the present invention assembled and installed in this way, when an earthquake occurs, the lower plate spring 32 and the buffer spring 34 of the buffer means 30 perform a double vertical buffering operation against vibration or shock caused by an earthquake.

In addition, the buffer spring 34 includes an upper spring guide 44 coupled and installed in the lower center of the upper cover 31 from the upper and lower sides of the inner side, and a lower spring guide 54 integrally formed on the outside of the stop actuator 50 . Since it guides the upper and lower buffering operation of the buffer spring 34, the buffering performance of the buffer spring is further maximized.

In addition, the vibration-proof rubber 33 installed between the lower leaf spring 32 and the buffer spring 34 attenuates the residual vibration or impact applied in the horizontal and vertical directions to further reduce the vibration or impact applied to the earthquake-resistant protective equipment. will be minimized.

In particular, in the present invention, the supporting force and elastic force by the lower plate spring 32 , the vibration-proof rubber 33 and the shock-absorbing spring 34 of the shock-absorbing means 30 are gradually reduced during the vibration or shock-absorbing operation due to the earthquake. When the life of the means reaches the limit value, the buffer means 30 is lowered together with the switch operation part 40, and the lower end of the switch operation rod 41 of the switch operation part 40 is a stop operation tool 50 It will come into contact with the top.

As described above, when the lower end of the switch operation rod 41 of the switch operation unit contacts the upper portion of the stop operation member 50, the switch operation rod 41 is stopped without further descending while compressing the restoration spring 45. .

At the same time, the alarm switch 60 installed on the upper base 20 continues to descend together with the buffer means, and the switch operation rod 41 pushes the operation rod 62 of the alarm switch.

That is, since the operating rod 62 horizontally retreats while the inclined portion 42 on the switch operation rod 41 pushes the inclined portion 63 formed on the operation rod 62 of the alarm switch, the alarm switch 60 will trigger an alarm.

In this way, the replacement lamp and the earthquake lamp are turned on together with the alarm operation of the alarm switch 60 so that the user can simply check and check whether an earthquake has occurred and whether the buffer means has been replaced.

Therefore, the present invention provides buffer support against vibration or shock caused by an earthquake by installing a buffer means 30 between the upper base 20 of the lower part of the seismic protection facility and the lower base 10 of the floor, but the buffer means is provided when an earthquake occurs. Of course, by pushing the operation rod 62 of the alarm switch 60 while the switch operation pin 41 of the switch operation part stops at the stop operation tool 50 when descending due to the expiration of the life of the buffer means, earthquake or buffer means Safe operation of seismic protection equipment is promoted while an automatic alarm is activated to indicate that the life of the device is over.

10: lower base 12: insertion hole
20: upper base 30: buffer means
31: upper cover 31a: insertion hole
32: lower leaf spring 33: anti-vibration rubber
34: buffer spring 40: switch operation part
41: switch operation rod 42, 63: inclined portion
43: adjusting nut 44: upper spring guide
45: restoration spring 50: stop actuator
54: lower spring guide 55: tightening bolt
56: mounting plate 57: tightening nut
60: alarm switch 62: actuation load

Claims (3)

A lower base 10 installed on the floor, and
An upper base 20 installed under the seismic protection equipment, and
It is installed between the lower base and the upper base, and the upper cover 31, the lower leaf spring 32, and the vibration-proof rubber 33 and the shock-absorbing spring 34 are combined inside the leaf spring to prevent vibration or impact caused by an earthquake. A buffer means 30 for buffering and supporting, and
A switch operating part (41) having a restoration spring (45) inserted therein is inserted and installed in the lower part of the upper cover (31) through an insertion hole (31a), and an adjustment nut (43) is fastened to the upper part to support and install it ( 40) and
A stop operation tool (50) installed on the lower base (10), but the lower end of the switch operation rod (41) stops working when the buffer means is descended due to an earthquake or the end of its lifespan;
It is installed on the upper base 20, but the operation rod 62 is installed at the upper position of the switch operation rod, and when the buffer means is descended due to an earthquake or the end of its life, the operation rod is pushed while the operation rod is stopped by the stop operation mechanism. A smart earthquake-resistant device having a lifespan and earthquake warning function, characterized in that it is composed of an alarm switch (60) that operates an alarm by doing it.
The method of claim 1,
An upper spring guide 44 coupled to the lower center of the upper cover 31 to guide the upper portion of the buffer spring 34,
A lower spring guide 54 is formed integrally on the outside of the stop operation member 50 to guide the lower portion of the buffer spring 34,
The stop operation member 50 is screwed to the upper part of the fastening bolt 55 inserted into the insertion hole 12 from the lower part of the lower base, and the lower part of the fastening bolt is inserted into the mounting plate 56 and the fastening nut 57. Smart seismic device having a lifespan and earthquake warning function, characterized in that it is configured to be fixedly installed by fastening of screws.
3. The method of claim 1 or 2,
An inclined portion 42 is formed on the upper portion of the switch operation rod 41,
The actuating rod 62 is configured to horizontally retract when the switch actuating rod 41 pushes the actuating rod 62 by forming an inclined portion 63 corresponding to the inclined portion 42 of the switch actuating rod. Smart seismic device with long life and earthquake warning function.

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