JP2794100B2 - Wireless sensing system - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sensing system for wirelessly setting a schedule for sensitivity control of a sensor.

[Prior art] In recent years, many devices related to crime prevention and disaster prevention have been commercialized, and the sensors used in such devices have been repeatedly improved and many of them have advanced functions. I have. FIG. 3 is a view showing a hot-wire type sensor for detecting a hot ray emitted from a human body among such sensors. In the figure, reference numeral 100 denotes a hot-wire sensor main body, and a pyroelectric-type hot-wire sensor 1
01, a tamper switch 102 that issues an alarm when a cover (not shown) is forcibly removed, a sensitivity adjustment volume 103 that adjusts the sensitivity of the hot-wire sensor 101, and a hot-wire sensor 100
4 is provided with an operation indicator switch switch 104 for switching the lighting of the operation indicator when the device operates, and a connection terminal 105 for connecting to a sensor line (not shown). As shown in FIG. 3, a screwdriver or the like is inserted into a groove 103b provided on the rotatable volume shaft 103a to rotate the volume shaft 103a, and the hot-wire sensor 10
The sensitivity of 1 is adjusted.

Therefore, since the sensitivity adjustment volume 103 is provided, the optimum detection can be performed by adjusting the sensitivity of the heat ray sensor 101 according to the place where the heat ray detector is installed. The same applies to sensors and the like.

For example, by changing the sensitivity of the heat sensor between the case where the heat sensor is installed in a bathroom and the case where it is installed in a guest room, etc. Sensing can be performed.

In a place where such a hot-wire sensor or a heat sensor is installed, a more reliable detection can be performed by switching and setting the sensitivity schedule of the sensor according to the time of the day. When the door is opened and closed by a cooker, the sensitivity of the heat ray sensor is lowered at midnight and the sensitivity schedule is set so that the door is not opened or closed, and a heat sensor is installed in the cooking place etc. In this case, since heat is generated during the cooking time period, if the sensitivity schedule is set so as to lower the sensitivity of the heat sensor, detection with less false alarms and high reliability can be performed.

However, the heat ray detector 100 as shown in FIG.
For example, the sensitivity adjustment volume 103 of the heat ray sensor 101
The sensitivity adjustment volume 103 is adjusted at the time of installation because these sensors are usually mounted on the ceiling or upper wall where humans do not easily touch. And it was very difficult to change the sensitivity schedule for the day. Therefore, development of a sensing system that can easily set the sensitivity schedule of the sensor by some method is awaited.

[Problems to be Solved by the Invention] The present invention proposed in view of the above situation is a wireless sensor that can easily set a sensitivity schedule of a heat ray sensor or a heat sensor by a separately provided wireless transmitter. It is intended to provide an expression sensing system.

Means for Solving the Problems The present invention proposed to achieve the above object receives a sensor and an electromagnetic wave signal of sensitivity data and time data set for creating a sensitivity schedule of the sensor. A wireless receiver, a non-volatile memory that stores the sensitivity data and time data received by the wireless receiver, a timer circuit that counts time and outputs a time signal, and the time signal and the sensitivity data. A sensitivity schedule setting circuit that sets a sensitivity schedule of the sensor based on time data, and processes a signal from the sensor based on a signal of the sensitivity schedule setting circuit, while a signal from the sensor deviates from a specified value. Occasionally, a sensor having a signal processing circuit for outputting an alarm signal to a receiver and an electromagnetic wave signal applied to the sensor. A wireless transmitter that transmits the sensitivity data and the time data, and the sensitivity data and the time data set by the wireless transmitter based on the sensitivity schedule. The data is transmitted to the sensor, the data is received by the wireless reception unit and stored in the nonvolatile memory, and the sensitivity schedule setting circuit sets the sensitivity schedule of the sensor according to the data and the time signal of the timer circuit. In the signal processing circuit, a signal sent from the sensor is processed based on the sensitivity schedule, and an alarm signal is output to a receiver. Heat ray sensor (corresponding to claim 2) for detecting heat rays or heat or smoke density Accident sensor (claim 3 corresponding)
In the present invention proposed at the same time, the sensor is:
A configuration in which the wireless transmitter includes a signal changeover switch that switches between issuing an alarm from the signal processing circuit to the receiver based on a signal of the sensor or transmitting an analog signal of the sensor. According to the present invention, the electromagnetic wave signal is constituted by a radio signal (corresponding to claim 5) or an optical signal (corresponding to claim 6).

[Operation] In the present invention, when sensitivity data and time data as a sensitivity schedule of the sensor are set by the wireless transmitter and transmitted as an electromagnetic wave signal to the detector, these data are received by the wireless receiver, Data is stored in the non-volatile memory. Based on the data stored in the nonvolatile memory and the time signal of the timer circuit, the sensitivity schedule setting circuit sets the sensor sensitivity schedule, that is, the sensitivity and time schedule.

The signal processing circuit processes the sensor signal in accordance with the set sensitivity schedule, and sends an alarm signal to the receiver when the sensor signal exceeds a specified value.

Embodiment An embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 is a block diagram showing the configuration of the present invention. In FIG. 1, reference numeral 1 denotes a heat ray detector, and an antenna 1a for capturing a radio signal transmitted from a wireless transmitter 2;
A wireless receiver 1b for demodulating sensitivity data and time data from a radio signal captured by the antenna 1a, a non-volatile memory 1c for storing demodulated data, a timer circuit 1e for outputting a time signal, The configuration includes a sensitivity schedule setting circuit 1d that receives a data and a time signal and sets a sensitivity schedule, and a signal processing circuit 1f that processes a signal of the sensor 1g according to the sensitivity schedule signal. 2 is a wireless transmitter,
It has a function of setting sensitivity data and time data and transmitting it as a radio signal.

FIG. 2 is a diagram showing an example of an operation panel of the wireless transmitter 2. Referring to FIG. 1 and FIG.
A setting method of the sensitivity schedule will be described.

For example, the sensitivity of the sensor 1g of the heat ray detector 1 is the maximum sensitivity from 8:00 am to 8:00 pm (for example, the sensitivity is set to level 10).
When setting the minimum sensitivity (for example, level 0) from 8:00 pm to 8:00 the next morning, first, the wireless transmitter 2
When the sensitivity setting switch 2c is operated after inputting 10 with the numeric keypad and confirming that 10 has been input on the monitor display 2b, the display on the monitor display 2b is cleared, and the sensitivity data 10 is stored in the internal memory (not stored). (Shown). Next, when the time data 0800 is input using the numeric keypad 2f and the time display switch 2d is operated after confirming that 0800 is input on the monitor display 2b, the display on the monitor display 2b is cleared, and the time data 0800 is displayed. Captured in internal memory. Further, the sensitivity data 0 and the time data 2000
When the transmission switch 2e is operated after is stored in the internal memory, all sensitivity data and time data stored in the internal memory are transmitted to the heat ray sensor 1 in the form of radio signals.

This radio signal is captured by the antenna 1a of the heat ray detector 1, the sensitivity data (10,0) and the time data (0800,2000) are demodulated by the wireless receiver 1b, and these data are stored in the nonvolatile memory 1c. It is memorized.

On the other hand, since the heat ray detector 1 has a built-in timer circuit 1e that generates a time signal, the sensitivity schedule setting circuit 1d refers to the sensitivity data, the time data, and the time signal to generate the time signal. When the data coincides with the time data 0800, the sensitivity data 10 corresponding to the time data 0800 at that time is sent to the signal processing circuit 1f. Then, the signal processing circuit 1f operates so as to equivalently change the sensitivity of the sensor 1g by changing the alert level based on the sensitivity data 10. In this case, the sensitivity data is 10 until the time signal matches the next time data 2000.
Is maintained, and when the time signal becomes 2000, the sensitivity data becomes 0 and becomes the lowest sensitivity.

That is, as described above, the sensitivity of the heat ray detector 1 can be automatically changed according to time by the radio signal transmitted from the wireless transmitter 2. In the case of this embodiment, the sensitivity can be immediately switched to the set sensitivity regardless of time by operating the transmission switch 2e without inputting time data after inputting sensitivity data using the numeric keypad 2f.

In the above embodiment, data is transmitted between the wireless transmitter 2 and the heat ray detector 1 in the form of a radio signal (corresponding to claim 5). However, instead of the antennas 2a and 1a, light is emitted. By attaching a light emitting element (not shown) such as a diode and a light receiving element (not shown) such as a photodiode (corresponding to claim 6), the sensitivity schedule can be set by the same setting method as described above.
The setting procedure is the same as that in the case of the above-mentioned radio signal, and thus the description is omitted.

Further, in the above embodiment, the heat ray detector for detecting the heat ray is described as an example (corresponding to claim 2), but the present invention is similarly applicable to a fire detector (corresponding to claim 3). ,
The configuration and the setting method are the same as those in the above embodiment, and a description thereof will be omitted.

Further, by operating the signal changeover switch 2g provided on the wireless transmitter 2 in FIG. 2, when the signal changeover switch 2g is turned on, the signal input from the sensor 1g to the signal processing circuit 1f receives the sensitivity schedule. If the signal level exceeds a certain level, an alarm signal is output to a receiver (not shown). Conversely, if the signal changeover switch 2g is OFF, regardless of the sensitivity schedule, the analog signal from the sensor 1g is output. It is also possible to adopt a configuration in which a signal is output to a receiver (corresponding to claim 4), and when applied to a heat sensor,
By setting this signal changeover switch 2g to OFF,
It can also be used as a thermometer.

[Effects of the Invention] According to the present invention, a sensitivity schedule can be easily set and changed for a sensor by operating a wireless transmitter, and an output signal of a sensor can be directly transmitted to a receiver. As a result, a sensing operation suitable for the installation environment of the sensor can be obtained, and a highly reliable wireless sensing system can be provided.

[Brief description of the drawings]

FIG. 1 is a block diagram showing the configuration of a first embodiment of the present invention, FIG. 2 is an explanatory diagram of an operation panel of the wireless transmitter, FIG. 3 is an explanatory diagram of a conventional hot-wire sensor, and FIG. FIG. 4 is an explanatory diagram of the sensitivity adjustment volume. [Explanation of Signs] 1b Wireless receiver 1c Non-volatile memory 1d Sensitivity schedule setting circuit 1e Tire circuit 1f Signal processing circuit 1g Sensor 2 Wireless transmitter 2g Signal switching switch

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Claims (6)

(57) [Claims] 1. A sensor, a wireless receiving unit for receiving an electromagnetic wave signal of sensitivity data and time data set for creating a sensitivity schedule for changing the sensitivity of the sensor according to time, and a wireless receiving unit. A nonvolatile memory for storing the received sensitivity data and time data, a timer circuit for outputting a time signal, and setting a sensitivity schedule of the sensor based on the time signal and the set sensitivity data and time data A sensitivity schedule setting circuit for processing a signal from the sensor based on a signal of the sensitivity schedule setting circuit, and outputting an alarm signal to a receiver when a signal from the sensor deviates from a specified value. A sensor having a circuit, and the sensitivity data and the time data are transmitted to the sensor by an electromagnetic wave signal. A wireless sensing system comprising: a wireless transmitter for transmitting, the wireless sensor transmitting sensitivity data and time data set by the wireless transmitter based on the sensitivity schedule to the sensor; A receiver receives the data and stores the data in the non-volatile memory. The sensitivity schedule setting circuit sets a sensor sensitivity schedule according to the data and the time signal of the timer circuit. A wireless sensing system configured to process a signal sent from the mobile station based on the sensitivity schedule and output an alarm signal to a receiver. 2. The wireless sensing system according to claim 1, wherein said sensor is a hot-wire sensor for detecting a hot wire. 3. The wireless sensing system according to claim 1, wherein said sensor is a fire sensor for detecting heat or smoke density. 4. The wireless transmitter switches between the signal processing circuit of the sensor and the receiver for issuing an alarm based on the signal of the sensor or transmitting the analog signal of the sensor directly. 4. The wireless sensing system according to claim 1, further comprising a signal changeover switch. 5. The wireless sensing system according to claim 1, wherein said electromagnetic wave signal is a radio wave signal. 6. The wireless sensing system according to claim 1, wherein said electromagnetic wave signal is an optical signal.