RU95880U1 - SEISMIC DETECTOR - Google Patents

Abstract

 1. A seismic detector, consisting of a housing that is rigidly fixed to a wall, sensitive to seismic vibrations, and an alarm circuit, consisting of a power source, a toggle switch, a sound emitter, and a light emitter, characterized in that the element sensitive to seismic vibrations consists of a microswitch, a rod, a guide the sleeve and the ball, and the rod is installed vertically in the sleeve, which is located at its lower end, while the pair of rod-sleeve has a gap that allows the rod move up and down, and the upper part of the rod allows oscillatory movements during vibrations or shocks of seismic origin, the rod also has an additional load in its lower part, its lower flat end is supported by a microswitch button rounded under the sphere, there is an opening for installation in the upper end of the rod ball, and the hole diameter determines the sensitivity of the device, and the weight of the ball and the rod with the load is greater than the force of the return spring of the microswitch with normally closed contacts. ! 2. The seismic detector according to claim 1, characterized in that the ball is used with a displaced center of gravity.

Description

The invention of the device relates to the field of seismic detectors in the field of seismology.

The seismically dangerous situation in many regions of Russia and in other countries requires providing people with reliable, simple and inexpensive protection with a guarantee of saving lives. In many areas, there are no seismological stations, public warning systems. Who can currently guarantee that a tragedy like the one in Haiti in January 2010 will not happen again in Russia?

The inventive seismic detector differs from a number of other seismic detectors, known around the world, in the uncomplicated design of the mechanical and electrical parts and in production will require lower costs, having increased reliability, small overall dimensions, the ability to install in each residential or industrial premises. It is possible to use the specified device even when installing the warning system in each staircase of a house or industrial premises, using powerful sound sirens.

The device is designed to provide sound and light signals in the initial stage of an earthquake. In most of the observed natural phenomena, the first seismic waves are weak in their power, and then, with an interval unpredictable in time, a wave of destructive power follows. Sound and light signals in a timely manner will allow people to leave buildings and structures before the destructive wave and save their lives. The situation is especially dangerous at night - a sleeping person usually does not wake up from weak waves, i.e. from weak vibration of the floor, the walls of the room.

In the device, the weak vibration of the room walls from seismic waves (shocks) is converted into alarming sound and light signals through kinematic and electrical circuits.

The device consists (see Fig. 1) of a housing 1, which is mounted on the wall of the room, a ball 2 with a certain weight, with a displaced center of gravity, if necessary, mounted on the upper end of the rod 9 having an opening (see Fig. 2). A load 10 is fixed in the lower part of the rod to impart “stability” and as an additional weight to fulfill the condition: the weight of the ball, rod and load is greater than the return force of the micro switch 3, on which the rod rests on the rounded button for the rod with its lower flat end. The sleeve 8 holds the rod with the ball in an upright position. There is a gap in the place where the rod is mating in the sleeve, which allows the rod to move up and down freely and the upper end of the rod to oscillate with a certain amplitude at the moment of operation. The toggle switch 4 is installed in an electric circuit to turn off the system if necessary. At rest, normally closed contacts of the microswitch are open under the influence of the weight of the ball, rod and load, the sound emitter 7 and the light emitter 5 are de-energized. At the moment when the seismic wave transmits vibration, a push to the room wall, the instrument body, the upper end of the rod with the ball starts to oscillate, and the ball falls, the microswitch return spring will return the normally closed contacts to the initial position - sound 7 and light 5 signals will inform people about the initial stage earthquakes.

The sensitivity of the device, or rather the lower threshold, is controlled by the diameter of the hole on the upper end of the rod, i.e. a larger hole diameter increases the seismic threshold in points, as well as installing a ball with a displaced center of gravity in three positions, if necessary: the center of gravity below, at the diameter level, or above.

This device has no analogues in the design of the mechanical part.

In mass production, the housing of the device can be made of polystyrene by injection molding. It is recommended to use components of the electrical part of Russian production in order to increase reliability. Serial production does not require special high-precision equipment.

Claims (2)

1. A seismic detector, consisting of a housing that is rigidly fixed to a wall, sensitive to seismic vibrations, and an alarm circuit, consisting of a power source, a toggle switch, a sound emitter, and a light emitter, characterized in that the element sensitive to seismic vibrations consists of a microswitch, a rod, a guide the sleeve and the ball, and the rod is installed vertically in the sleeve, which is located at its lower end, while the pair of rod-sleeve has a gap that allows the rod move up and down, and the upper part of the rod allows oscillatory movements during vibrations or shocks of seismic origin, the rod also has an additional load in its lower part, its lower flat end is supported by a microswitch button rounded under the sphere, there is an opening for installation in the upper end of the rod ball, and the hole diameter determines the sensitivity of the device, and the weight of the ball and the rod with the load is greater than the force of the return spring of the microswitch with normally closed contacts. 2. The seismic detector according to claim 1, characterized in that the ball is used with a displaced center of gravity.