JP2006325288A - Thunder surge protector - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a thunder surge protector which can protect a protected apparatus also from continuous thunder surge, without costing much, thanks to its simple structure and downsizability. <P>SOLUTION: This thunder surge protector includes a protection circuit part 16 which has a surge protection element and a protection switch S1 for performing an action such as switching it off by thunder surge, a controller 18 which is connected to the protection circuit part 16, and a supply changeover switch S3 which is provided in the controller 18 and to which power wiring R is connected and which interlocks with the protection switch S1 by inverting action or the like. It has an alarm display output device 22 which issues an at least sonic alarm by the operation of the OFF switching of the protection switch S1 by thunder surge. The protection circuit part 16 and the controller 18 constitute protection units 14 and 15. For the protection units 14 and 15, a plurality of pieces are connected in series, and power input terminals T1 and T2 for the protection circuit part 16 of the other protection unit 15 are connected to the supply switchover switch S3 of the controller 18 of the protection unit 14 connected to the power wiring R. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a lightning surge protection device that protects electrical equipment and facilities from lightning surges caused by lightning strikes and the like.

  Conventionally, electrical equipment such as computers and photocopiers, home appliances such as telephones and television sets, and other electrical equipment such as telecommunications equipment are destroyed by lightning surges caused by lightning strikes. In order to prevent this, a lightning surge protection device is attached to the power line and signal line. This lightning surge protection device protects electric and electronic equipment from a surge voltage caused by a lightning surge caused by a lightning strike or the like, by a built-in surge protection element. As this surge protection element, varistors made of zinc oxide elements and other semiconductor elements are generally used. Once a surge voltage is applied by a lightning surge, these elements are lightning surges that have exceeded the operation start voltage. It is often discarded as it is and is often discarded. In addition, a lightning surge protection device is known as a method for notifying the user that the lightning surge protection device itself has been extinguished as a method of notifying that an excessive voltage has been applied to the built-in surge protection device. ing.

Further, in Patent Document 1, when a lightning surge protection device is provided with a microcomputer for control and a surge voltage caused by a lightning surge is applied, a warning display and buzzer controlled by the microcomputer inform that the surge voltage has occurred, There has been proposed an apparatus that shuts off power supplied to a protected device after a certain time. Patent Document 2 discloses an overvoltage protection device using a discharge gap type gas arrester as a surge protection element of a lightning surge protection device, and this overvoltage protection device has a continuity cutoff capability. Furthermore, an overcurrent protection interruption device provided with a time delay operation instantaneous release device is provided. And the apparatus which alert | reports by a warning display is disclosed.
JP-A-5-326108 JP 2003-143749 A

  In the above conventional technology, when a lightning surge occurs and the lightning surge protection device is activated, the built-in surge protection element is often damaged. If the surge protection element breaks, the surge protection function is lost. Therefore, in general, the entire lightning surge protection device must be replaced. However, when installing a lightning surge protection device around electrical equipment or equipment, it is installed in an inconspicuous place or a gap between equipment. Therefore, even if a lightning surge occurs and the surge element is damaged, there is a problem that it is difficult to notice. In addition, even if an indicator lamp indicating a damaged state is provided by turning off the lamp or LED, the problem remains that it is hidden behind objects to be protected and is difficult to notice.

  In addition, in Patent Document 1, a series of operations are controlled by a microcomputer, such as shutting off the power supplied to the protected device after a certain period of time after notification of the occurrence of a surge voltage due to warning display and buzzer activation. Generally, the lightning surge protection device is often destroyed when a surge voltage is applied, so it is used by being completely replaced. However, the lightning surge protection device disclosed in Patent Document 1 has a complicated structure, It is costly and is not economical to dispose of. In addition, the lightning surge protection device is generally installed behind a device such as a gap between devices. However, since the structure is complicated, there remains a problem that it is difficult to reduce the size.

  In Patent Document 2, an overvoltage protection device that protects a device from a surge voltage of lightning surge is also provided with a function of interrupting a continuity, and an alarm is displayed when a surge is interrupted by the overvoltage protection device. The problem remains that it is difficult to notice when hiding in the shade.

  Furthermore, in the case of conventional technology, when lightning surges occur frequently and lightning surges continue, if the surge protection element is damaged once the surge voltage is applied, the protection function from the surge voltage is lost, and The possibility of breakage due to lightning surges remained.

  The present invention has been made in view of the above-described problems of the prior art, has a simple structure, can be miniaturized, does not cost, and can protect a protected device from a continuous lightning surge. An object is to provide a lightning surge protection device.

  The present invention is a lightning surge protection device that protects a device to be protected from a surge voltage caused by a lightning surge, a protection circuit unit having a surge protection element and a protection switch that performs an operation such as turning off by a lightning surge, and the protection A control unit connected to the circuit unit, a supply changeover switch provided in the control unit and connected to a power supply wiring and interlocked by a reversing operation or the like, and an operation such as turning off the protection switch due to the lightning surge Accordingly, the lightning surge protection device includes a warning display output device that issues a warning by sound, and a protection unit is configured by the protection circuit unit and the control unit.

  The control unit is connected to a power supply unit using a built-in or external battery. Further, a plurality of the protection units are connected in series, and the power supply input terminal of the protection circuit unit of the other protection unit is connected to the supply changeover switch of the control unit of the protection unit connected to the power supply wiring. It is what. And the said protection unit, each said protection circuit part, and each said control part are formed so that replacement | exchange is possible via a connector.

  According to the lightning surge protection device of the present invention, when a surge voltage or the like is applied and the surge protection element is destroyed, damage due to lightning surge can be reliably warned. Furthermore, by providing a control unit that can be operated by a power source unit using a battery, it can be used in a wide range without selecting an installable device. Further, since the warning sound is used for notification, it can be recognized that the surge voltage has been applied reliably. When a surge voltage is applied and the surge protection element is destroyed, it is always possible to promote replacement of the destroyed surge protection element.

  In addition, the device to be protected can be protected from the lightning surge by the protective circuit portion that can be connected and formed even from the lightning surge generated continuously. In addition, since a complicated structure such as a microcomputer is not used, the structure is simple, the cost is relatively low, and the size can be reduced, the space efficiency of the grounding location is good.

  Hereinafter, an embodiment of a lightning surge protection device of the present invention will be described with reference to FIG. The lightning surge protection device 10 of this embodiment is used to protect a protected device 12 such as an electric device and equipment from a lightning surge. As shown in FIG. 1, the lightning surge protection device 10 is attached by connecting a branch wiring A in the middle of a power supply wiring R of a primary power supply such as a single-layer or three-phase power supply that supplies power to the protected device 12. And a plurality of protection units, for example, two sets of protection units 14 and 15. The protection units 14 and 15 are each provided with a protection circuit section 16 formed from a varistor such as a zinc oxide element, a surge protection element (not shown) made of a semiconductor element, and a protection switch S1 such as a fuse or a switch. Each protection circuit unit 16 is provided with grounded ground terminal E and power input terminals T1 and T2 to which a branch wiring A from the power wiring R is connected. Further, the protection switch S1 is connected to a connector (not shown) provided in the protection circuit unit 16, and is connected to the control unit 18 via the connecting line C via this connector.

  The control unit 18 includes, for example, a relay or a switch, and is provided with power input terminals T3 and T4 connected in parallel to the branch wiring A from the power wiring R to the protected device 12. Further, the connecting line C connected to the protection circuit unit 16 is connected to a changeover switch S2 for switching the power supply input via a connector (not shown) of the control unit 18. Further, the control unit 18 is provided with a supply changeover switch S3 for switching the connection of the branch wiring A connected to the power supply input terminals T3, T4, and an alarm switch S4 linked to the changeover of the power supply input. The supply changeover switch S3 is interlocked with the changeover switch S2 by, for example, an inversion operation. The supply changeover switch S3 and the alarm switch S4 are connected to connectors (not shown) provided in the control unit 18, respectively. The protection circuit unit 16 and the control unit 18 connected to the protection circuit unit 16 constitute a set of protection units 14.

  Further, the supply changeover switch S3 is connected to the power supply input terminals T1 and T2 of the other protection unit 15 through the connection wiring B. The other protection unit 15 is also formed by a circuit configuration similar to the above. The control unit 18 of the other protection unit 15 has a connector (not shown) connected to the alarm switch S4, and can be operated by the power supply unit 20 such as a battery and the power supply unit 20 to generate a warning display and a warning sound. A warning display output device 22 formed in a possible manner is connected. The warning display output device 22 includes a display unit such as an LED and an alarm sound generation unit such as a buzzer. The power supply unit 20 may be provided in the control unit 18.

  Next, the operation of the lightning surge protection device 10 of this embodiment will be described. When a lightning surge generated by a lightning strike is transmitted through the power supply wiring R shown in FIG. 1 and an excessive voltage such as a surge voltage is applied to the lightning surge protection device 10, the lightning surge is provided in the protection circuit unit 16 that forms the protection unit 14. Surge voltage is absorbed by the surge protection element. At this time, as soon as the surge protection element is destroyed, the protection switch S1 of the protection circuit unit 16 is operated to be turned off, and a signal such as turning off the power to the control unit 18 of the same protection unit 14 is output. Sent. At the same time, the changeover switch S1 of the other protection circuit section 16 is turned on.

  Then, the changeover switch S2 of the control unit 18 of the protection unit 14 is turned off, and the changeover switch S2 of the control unit 18 of the other protection unit 15 is turned on. In conjunction with this, the supply selector switch S3 of the control unit 18 of the protection unit 14 is turned on, the power supply energization path is switched, and the connection line B is connected to the power supply line R via the branch line A. Thereby, a power supply energization path is formed from the primary supply power source to the protection circuit unit 16 of the other protection unit 15.

  Next, when a lightning surge occurs again, the surge voltage transmitted from the power supply wiring R is input to the protection circuit section 16 of the protection unit 15 connected via the branch wiring A and the connection wiring B, and is built in the protection circuit section 16. A lightning surge is absorbed by a surge protection element (not shown). At this time, when the surge protection element is destroyed, the protection switch S1 of the protection unit 15 operates to send a signal by cutting off the energization to the connected control unit 18 or the like. The controller 18 turns off the selector switch S2 at the same time as the power supply is cut off, and the alarm switch S4 is switched to the energized state in conjunction with it.

  Then, power is supplied to the warning display output device 22 by the power supply unit 20 connected to the alarm switch S4, and a lightning surge is generated by the warning display and warning sound from the display unit and the alarm sound generating unit provided in the warning display output device 22. Abnormality due to is reported.

  According to the lightning surge protection device 10 of this embodiment, even when a surge voltage or the like is applied and the surge protection element is destroyed, the warning display output device 22 that operates by the power source unit 20 using a battery that is not shared with the protected device 12. However, in order to notify with a warning display and a warning sound, it is surely informed that a surge voltage has been applied. Then, replacement of the lightning surge protection device 10 and the protection units 14 and 15 is urged. Moreover, the to-be-protected apparatus 12 can be reliably protected from the lightning surge by the protection units 14 and 15 formed so that a plurality of lightning surges can be connected. In addition, no complicated parts such as a microcomputer are used, and the structure is simple, so the cost is relatively low. In addition, since the size can be reduced, the space efficiency of the installation place is also good.

  In addition, since the warning display output device 22 can be connected to any of the controllers 18 constituting the protection unit, if the warning display output device 22 is connected to each control unit 18 of the connected protection units 14 and 15, surge protection is provided. When the element is destroyed, it is immediately notified and it is possible to prompt replacement of the corresponding protection unit 14.

  In addition, the lightning surge protection device of the present invention is not limited to the above-described embodiment, and it is possible to connect a plurality of protection units formed from a set of protection circuit units and control units. In addition, the number of connections can be increased as appropriate. In this case, when a surge protection element is destroyed by applying a surge voltage, the protection unit having an undestructed surge protection element is sequentially switched to improve the lightning protection against a continuous lightning surge.

  In addition, the control unit and the protection circuit unit forming the protection unit can be replaced with a connector that can be easily attached and detached, so that only the protection circuit unit and the control unit can be replaced. Become. Furthermore, the surge protection element only needs to be formed so as to be able to absorb the surge voltage, and can be appropriately selected from a varistor, a Zener diode, a thyristor, and the like.

  In addition, the control unit may be operated by an application such as an internal battery or an external battery, and the power source can be appropriately selected from a primary battery, a secondary battery, a capacitor, and the like. The capacity of the power supply only needs to be sufficient to operate the control unit and warning display output device, and the warning sound and warning display can supply power until the user stops or the power capacity is exhausted. I just need it.

It is a schematic structure figure showing the state where the lightning surge protection device of one embodiment of this invention was attached.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Lightning surge protective device 12 Protected apparatus 14 and 15 Protection unit 16 Protection circuit part 18 Control part 20 Power supply part 22 Warning display output device

Claims (4)

  In a lightning surge protection device for protecting a protected device from a surge voltage caused by a lightning surge, a protection circuit unit having a surge protection element and a protection switch operated by a lightning surge, a control unit connected to the protection circuit unit, A supply changeover switch provided in the control unit and connected to the protection switch and operating in conjunction with the protection switch; and a warning display output device for generating a warning by sound at least by the operation of the protection switch due to the lightning surge, A lightning surge protection device, wherein the protection circuit unit and the control unit constitute a protection unit.   The lightning surge protection device according to claim 1, wherein the control unit is connected to a power source unit using a battery.   A plurality of the protection units are connected in series, and the power input terminal of the protection circuit unit of the other protection unit is connected to the supply changeover switch of the control unit of the protection unit connected to the power supply wiring. The lightning surge protection device according to claim 1. 4. The lightning surge protection device according to claim 1, wherein the protection unit, the protection circuit units, and the control units are formed to be replaceable via a connector.

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