JP2699485B2 - Seismic device - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a seismic device for detecting an earthquake, and more particularly to providing a seismic device which is hardly operated by an impact when an object is hit. .

2. Description of the Related Art As shown in FIG. 4, a conventional seismic device of this type includes a seismic sensor 1 that generates a repetitive signal of on and off by vibration.
And monitor the ON and OFF time widths, and make sure that the number of ONs that are longer than the specified ON time width with the OFF time longer than the specified OFF time width are more than the specified number of times within the specified time And a number-of-times detecting means 2 that is equal to or more than a specified on / off time width for detecting the time. In the case of an earthquake, as shown in FIG. 5, the operation of the on / off signal of the seismic sensor 1 of b) corresponding to the period and amplitude of the seismic wave of a)
First, the ON2 which exceeds the prescribed ON time width TON (S) by the ON / OFF time width shown in (c) and (d).
Is the first time, and then the specified ON time width TON (S) with OFF3 that is longer than the specified OFF time width TOFF (S)
The above-mentioned ON 5 is defined as a second time, and thereafter, ON n having a specified ON time width equal to or greater than a specified OFF time width having an OFF n−1 equal to or longer than a specified OFF time width is defined as a specified number of Ms times, If this falls within a specified time Ts from the rise of the first ON shown in FIG.
The off-repetition signal is output from the output terminal 3 in FIG. 4 by judging the earthquake signal. Then, even if the specified time Ts has elapsed, if the number of ONs satisfying the specified condition does not reach the specified number of times Ms and the ON / OFF signal of the seismic sensor is continuously generated, Then, the next specified time Ts starts again from the rise of ON of the switch, and the same detection is performed. In addition, the vibration waveform due to an impact such as when an object collides is generally an attenuation wave due to the natural vibration of the place where the seismic device is installed, as shown in FIG. On the container
As shown in FIGS. 6 (b) to 6 (d), the OFF signal width gradually decreases and the OFF time width gradually increases, but the oscillation period itself is always constant. Therefore, the sum of the ON and OFF time widths is constant, that is, the sixth
As shown in Fig. (E), TON (i) + TOFF (i) = A (const.) ... (1), and this period A is usually shorter than the average period of the seismic wave. Therefore, the ON time width TON (s) and the OFF time width TOFF (s) specified above are selected so that TON (s) + TOFF (s)> A (2). The number-of-times detecting means having a width longer than the ON / OFF time width is designed to output as little as possible.

Problems to be Solved by the Invention However, at the beginning of the shock, the ON / OFF signal of the seismic sensor at the time of the actual vibration shock has an ON time width TON (i) that is equal to the OFF time, as shown in FIGS. Off time width T which is much longer than width TOFF (i) and exceeds specified ON time width TON (s)
Since OFF (i) is shorter than the specified OFF time width TOFF (s), the sum A shown in the above equation (1) satisfies the condition of the above equation (2). When the shock wave is attenuated and the ON signal of the seismic sensor is about to disappear, the ON signal is not generated regularly as shown in FIG. 7 (b) (the ON state of the dotted line in the figure disappears). The off-time width TOFF (i) becomes longer than the specified off-time width TOFF (s) as shown in FIG. Means sometimes output. In such a case, the seismic device intended to detect an earthquake has a problem that a so-called erroneous operation occurs in which the device operates when it does not need to operate.

The present invention solves such a conventional problem, and when an impact waveform due to an impact or the like when an object collides is attenuated, a malfunction may occur even if the seismic sensor ON signal does not regularly occur. It is an object of the present invention to provide a vibration-free device without vibration.

Means for Solving the Problems In order to solve the above-described problems, a seismic device of the present invention includes a seismic device that generates a repetitive signal of ON and OFF by vibration,
The ON and OFF time widths are monitored, and the number of ON times equal to or more than the specified ON time width having OFF between the first specified OFF time widths within the first specified time period is specified number of times. Means for detecting the number of times that is equal to or greater than the specified ON / OFF time width, and monitoring the ON / OFF time width of the seismic sensor within the second specified time; An on / off time width stability detecting means for calculating a fluctuation state of the sum of the on and off time widths each time and detecting that the fluctuation value is equal to or less than a specified fluctuation value; OFF time width detecting means for monitoring the OFF time width and detecting that it becomes equal to or greater than a second specified OFF time width; and when the output of the ON / OFF time width stability detecting means is generated. The output of the number-of-times detecting means exceeding the specified ON / OFF time width is prohibited, and Those constructed from an output control means for controlling the output of the specified on-off time width or more frequency detecting means for releasing it when the output is out of the time width detecting means.

Function As described above, the present invention provides a stability detecting means for the ON / OFF time width in addition to the conventional frequency detecting means for the ON / OFF time width or more, so that the ON / OFF signal of the seismic sensor has little fluctuation. When it is detected that a stable signal is generated regularly, it is regarded as a signal due to an impact, and the output of the conventional frequency detecting means is prohibited from that point on, and thereafter, the seismic sensor is regularly turned on. Even if the generation of the off signal is disturbed and the conventional number of times detection means outputs an output, no signal is output until the impact signal is completely stopped by the off time width detection means. Therefore, malfunction at the time of impact is further reduced.

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

In FIG. 1, the same components as those in FIG. 4 are denoted by the same reference numerals, and detailed description is omitted. Reference numeral 4 denotes a means for detecting the stability of the ON / OFF time width.
The on / off time width is monitored, and the fluctuation state of each of the on / off time width or the sum of the on / off time width is calculated each time, and the fluctuation value is less than a specified fluctuation value. Sometimes it produces output. Reference numeral 5 denotes an off-time width detecting means for monitoring the off-time width of the seismic sensor and generating an output when the off-time width exceeds a specified off-time width. Reference numeral 6 denotes an output control unit. When a signal from the ON / OFF time width stability detecting unit 4 is input, the output of the number of times of the specified ON / OFF time width or more is output to the output terminal 3. Prohibited
When a signal from the off time width detecting means 5 is input, it is canceled.

The operation at the time of impact in the above configuration will be described with reference to FIGS.

FIG. 2 shows an embodiment of the detection process of the stability detecting means 4 of the ON / OFF time width. Among the ON / OFF signals of the seismic sensor of b) corresponding to the shock wave of a), FIG. from the rise of on after the lapse of specified time Ts ₂ times the width c of the on-off signals of the respective n Ke to rising of the next on), d) for e), on and off as shown in f) The absolute value of the difference of each time width for each time is calculated, and the average value is defined as ON and OFF fluctuation values TON (v) and TOFF (v), and each fluctuation value is set to ON and OFF respectively. Specified fluctuation value TON (vs),
TOFF (vs) or less is detected.
Each of the fluctuation values TON (v) and TOFF (v) can be expressed by the following equations (3) and (4). Specified fluctuation value TON (vs),
When it falls below TOFF (vs), the ON / OFF time width stability detecting means 4 in FIG. 1 generates an output.

In this case, the average value for calculating the fluctuation value was used,
The absolute value of the difference each time may be compared with the specified variation value each time. Alternatively, the fluctuation value may be obtained as the sum of the ON and OFF time widths without obtaining the fluctuation value for each of ON and OFF.
(The fluctuation value is smaller in the sum form than in the constant period of the shock wave, but the detection can be performed only by the rise of ON.) FIG. 3 shows the overall operation at the time of impact. ,
In the on / off signal of the seismic sensor of b) due to the shock wave of (a), the second prescribed time Ts ₂ from the rise of the first on.
When the stability detecting means 4 of the ON / OFF time width shown in FIG. 1 detects that the signal is a stable ON / OFF signal with little fluctuation, the output control means 6 shown in FIG. Prohibiting the output of the number-of-times detecting means exceeding the off-time width from being output to the output terminal 3. Therefore, the shock wave is attenuated thereafter, and the ON signal of the seismic sensor becomes a discrete signal which disappears at various places as shown in FIG. 3 (b), and the OFF time width becomes longer, and the ON time of the specified time Ts becomes the specified ON time. -Even if the number of on times larger than the off width reaches the specified number of times Ms, no output is output from the output terminal 3. When the off time width of the seismic sensor exceeds the second specified off time width TOFF (s ₂ ), the output prohibition is released, assuming that the on / off signal of the seismic device by the shock wave has stopped. To return to the standby state.

Effects of the Invention As described above, according to the seismic device of the present invention, the following effects can be obtained. In other words, not only the detection method that it is sufficient if the number of times that is equal to or more than the specified on / off time width is equal to or more than the specified number of times,
The on / off signal at the time of impact is detected early by the on / off time width stability detection means, and thereafter the output is not generated as long as the signal continues, so the shock wave has attenuated It is also possible to prevent erroneous operation occurring at a place.

[Brief description of the drawings]

FIG. 1 is a block diagram of a seismic device in one embodiment of the present invention, FIG. 2 is a characteristic diagram of a stability detecting means in the device,
FIG. 3 is a comprehensive characteristic diagram of the device, FIG. 4 is a block diagram of a conventional seismic device, and FIGS. 5 to 7 are characteristic diagrams of the device. 1 ... seismic sensor, 2 ... means for detecting the number of times equal to or greater than the specified on / off time width, 4 ... means for detecting the stability of the on / off time width,
5 ... off time width detecting means, 6 ... output control means.

Claims (1)

(57) [Claims] The present invention relates to a vibration sensor that generates a repetitive signal of ON and OFF by vibrating, and monitors a time width of ON and OFF of the vibration sensor, and determines an OFF time that is equal to or more than a first specified OFF time width. A number-of-times detecting means for detecting that the number of times of ON that is equal to or more than a specified ON time width is equal to or more than a specified number within a first specified time; The on / off time width of the seismic sensor is monitored, and the fluctuation state of each of the on / off time widths or the sum of the on / off time widths is calculated for each time, and the fluctuation value is specified. On / off time width stability detecting means for detecting the fluctuation value or less, and monitoring the off time width of the seismic sensor,
An off time width detecting means for detecting that the time becomes equal to or more than a second specified off time width, and the specified on / off time width or more when an output of the on / off time width stability detecting means is generated. And output control means for controlling the output of the number-of-times detection means equal to or more than the specified on / off time width, wherein the output of the number-of-times detection means is inhibited, and the output of the off-time width detection means is released when the output is issued. Seismic device.