SU868665A1 - Method and device for protecting object from seismic wave effect - Google Patents

Description

The method is implemented with the aid of a device containing seismic sensors, each equipped with data conversion and transmission units, which the seismic sensor of the protected object, an object integrity sensor, an object communication disconnection unit and intermediate seismic sensors located at a distance from the object that passes the seismic wave during the time are entered. , no less than the response time of the protection system, and the main sensors are located in the areas of the epicenters of the supposed earthquakes, and the seismic sensor of the It is connected with the unit for disconnecting communications through the object integrity sensor, and each of the intermediate seismic sensors is also equipped with a conversion unit and an information transmission unit associated with the unit for disconnecting the object communications.

The essence of the method lies in the fact that the registration of seismic vibrations by the main and additional seismic sensors allows for timely response to the danger of object failure, and the object's seismic sensor combined with the object integrity sensor system and communication shutdown unit reduces the time of the object to a minimum.

FIG. 1 shows a block diagram of the proposed system j in FIG. 2 arrangement of system elements and possible sources of seismic wave.

The warning system of a possible failure of an object when it is affected by a seismic wave consists of seismic sensors 1–3 possible earthquake sources, intermediate seismic sensors 4–6 installed between seismic sensor 7 of the object and seismic sensors 1–3 possible sources of seismic wave occurrence. The object is equipped with an object integrity sensor 8, which can be implemented as a series of devices installed on all vital parts of the object, and by block 9 of the object's communications. Seismic sensors 1 - 3 possible sources and intermediate seismic sensors 4 - 6 can be connected with block 9 of the power supply supply with any known information channel. The seismic sensor 7 of the object is connected with block 9 of the power supply supply through the sensor 8 of the integrity of the object.

The protected object 10 may have geological features, for example, in the form of faults 11 and 12 located between the object and possible foci of earthquakes 13 and 14. There may not be a fault between the source 15 and the object of the fault.

The method using the proposed device is implemented in the following manner.

In the absence of activity of possible foci of earthquakes, signals from seismic sensors 1–3 do not arrive and object 10 functions normally. If seismic activity occurs in one of the possible sources 13–15, the system operates according to one of the following options.

Option 1. Seismic sensor 3 of the source 15 transmits to the object 10 a signal about the occurrence of a seismic wave, which has a dangerous intensity for the protected object. By this signal, the communication shutdown unit 9 is prepared for disconnection and waits for confirmation of disconnection from seismic sensor 6. When confirming the arrival of a seismic wave dangerous to the object, seismic sensor 6 issues a signal to the power supply disconnecting unit to disconnect the energy lines of the object 10. After passing through object 10, the seismic waves by the signal of the seismic sensor 7 of the object and the sensor 8 of the integrity of the object; block 9 connects the communications, thus avoiding the consequences arising when switching on ii power to the damaged during the passage of a seismic wave portions of the object.

If there are geological faults in the path of a seismic wave, the latter may or may not pass through the fault, which is determined by the depth of the source of the earthquake.

Option 2. Seismic sensor 2 transmits to object 10 a signal about the occurrence of a seismic wave from source 14. If a seismic wave from source 14 passes through a fault 12 and seismic sensor 5 confirms its dangerous value for an object, then the signal to shut down the object and the shutdown unit disconnects the power lines object. Further, the system works similarly to option 1.

Option 3. When passing through the fault 11 seismic waves from the source 13, the seismic weakening occurs. ches wave to a safe value. The seismic sensor 4 does not generate a signal to turn off the object despite the fact that the seismic sensor I signals a dangerous magnitude of the seismic-paternal wave in the zone of its origin. After some time, if the seismic sensor does not confirm the arrival of the seismic wave transmitted by the seismic sensor 1, the power supply supply disconnecting unit 9 is transferred from the ready state to the initial position.

Claims (2)

The proposed system can be used to protect nuclear power plants, meteorological rocket launchers, gas and oil heating systems, pumping stations and other industrial objects. Invention 1. A method for protecting an object when exposed to a seismic wave, including recording of seismic vibrations, generating a signal about their occurrence and its transfer to the object, which is distinguished by the fact that, in order to reduce the effects of earthquakes and reduce the time of a simple object, seismic {salt-out Register in the epicenor areas of the assumed earthquakes, at the object, as well as at a distance from the object, which the seismic wave travels for a time not less than the response time of the protection system, and disconnect the device during the seismic wave through the object 2, An apparatus for carrying out the method according to claim 1, comprising seismic sensors equipped with information transform and transmission units, characterized in that a seismic sensor of the protected object, an integrity sensor of the object, a block are inserted into it Switching off the object communications and intermediate seismic sensors located at a distance from the object that the seismic wave travels for a time not less than the response time of the protection system, and the main sensors are located in the epicenters of the supposed earthquakes, and the object seismic is connected a unit for disconnecting communications through an object integrity sensor, and each of the intermediate seismic sensors is also provided with a conversion unit and an information transmission unit associated with the communication disconnecting unit th object. Sources of information received so much attention in the examination 1. For the UK W1466527, published. 1974. 2. The patent of France No. 2120567, cl. G 01 V 1/00, pub. 1978 (prototype). 15 FIG. 2