JP4314586B2 - Detection sensor and security system - Google Patents

Description

  The present invention relates to a detection sensor and a security system that detect a certain abnormal state and execute a security process according to a detection result.

  In order to prevent illegal intrusions into the building from the outside, security parents that issue alarms by receiving detection signals (sensors) installed on doors, windows, etc. and wireless signals sent from detection sensors that detect intrusions A wireless security system including a machine (wireless security receiver) has been devised and implemented (see, for example, Patent Document 1).

JP 2005-173837 A

  The detection sensor of such a wireless security system repeatedly transmits a predetermined number of times according to the detection of the intrusion so that the security master device can reliably receive the wireless signal transmitted when the intrusion is detected. Yes. Since the security master unit only needs to receive any of the wireless signals repeatedly transmitted a predetermined number of times, it can be reliably received even if there is any temporary reception trouble. Further, the detection sensor is driven by electric power supplied from an installed battery so that it can be installed in any place where an intruder can be detected in addition to the door and window described above.

  However, since the detection sensor is always supplied with power to a signal transmission unit that transmits a wireless signal, there is a problem that the life of a battery having only a limited power supply capability is shortened in a short time.

  Accordingly, the present invention has been devised to solve the above-described problems, and includes a detection sensor that can effectively use limited power supply capability without waste, and such a detection sensor. The purpose is to provide a security system.

  The detection sensor according to the present invention includes a detection unit that detects some abnormal state, a transmission unit that transmits a detection signal to the external device as a radio signal in response to detection of the abnormal state by the detection unit, and the detection signal. Receiving a response signal indicating a response from the external device that has received the signal, and in response to the detection of an abnormal state by the detection unit, starts supplying power to the transmission unit and the reception unit, In response to reception of a response signal by the receiving means within a predetermined time from the start of supply, control is performed to stop power supply to the transmitting means and the receiving means, and power supply is started. If a response signal cannot be received by the receiving unit after a predetermined time has elapsed, the power to the transmitting unit and the receiving unit is transmitted in response to transmitting the detection signal a predetermined number of times. By providing a power supply control means for controlling so as to stop the supply, to solve the problems described above.

  In addition, the detection sensor of the present invention threatens an intruder in response to receiving the alarm signal transmitted in the alert mode from the external device that has received the detection signal transmitted by the sensor. The power supply control means includes first threatening means, and when the threatening time for threatening by the first threatening means is a short time, the receiving means receives the alarm signal by the receiving means in response to receiving the warning signal. The above-described problem is solved by controlling the power supply to the means to stop.

  In addition, the detection sensor of the present invention, in response to receiving the stop signal transmitted from the external device that has been released from the alert mode, regardless of the detection result by the detection means, threats by the first threatening means Threatening stop control means for controlling to stop, and the power supply control means receives a warning signal by the receiving means when the threatening time for threatening by the first threatening means is long, The above-mentioned problem is solved by controlling to continuously supply power to the receiving means while threatening by one threatening means.

  Furthermore, the detection sensor of the present invention includes the second threatening means for threatening an intruder when the detection signal is transmitted to the external device as a wireless signal by the transmission means, thereby solving the above-described problem.

  The crime prevention system of the present invention has received a detection sensor that transmits a detection signal as a radio signal by a transmission unit in response to detection of some abnormal state by the detection unit, and a detection signal transmitted by the detection sensor. And a security parent device for notifying that an abnormal state has occurred. In such a security system, the detection sensor receives a response signal indicating a response from the security parent device that has received the detection signal, and in response to the detection of an abnormal state by the detection unit, In response to receiving a response signal by the receiving means within a predetermined time after the power supply is started, the power supply to the transmitting means and the receiving means is started. If a predetermined time has passed since the power supply was started and the receiving means could not receive a response signal, the detection signal was transmitted a predetermined number of times. Accordingly, the above-mentioned problem is solved by providing a power supply control means for controlling the transmission means and the power supply to the receiving means to stop.

  Further, the security system of the present invention is configured such that when the security master unit receives a detection signal transmitted by a detection sensor, a determination unit that determines whether the security mode is a warning mode, and the determination unit is in a warning mode. And a transmission signal control means for controlling to transmit a stop signal when the judgment means judges that the warning mode has been released by the judgment means, and the detection sensor In response to receiving the alarm signal transmitted from the security master by the receiving means, the threatening means for threatening an intruder and the stop signal transmitted from the security master are received by the receiving means Accordingly, threatening stop control means for controlling to stop threatening by the threatening means regardless of the detection result by the detection means.

  When the power supply control means of the detection sensor performs a threatening time by the threatening means for a short time, the power supply to the receiving means is performed in response to the reception of the alarm signal by the receiving means. If the intimidation time for performing the threat by the threatening means is a long time, an alarm signal is received by the receiving means, and while the threat by the threatening means is being made, the reception means continues The above-described problems are solved by controlling to supply power.

  According to the present invention, the detection sensor supplies power to all functional units related to transmission / reception of wireless signals for a minimum period necessary for reliably transmitting intruder detection to the security parent device by wireless communication. Therefore, the limited power supply capability of the detection sensor can be effectively utilized without waste, and it is possible to promote the extension of the life of the power source.

  In addition, according to the present invention, when the threat to the intruder is executed and it is no longer necessary to receive the alarm signal, the power supply to all the functional units involved in the reception of the radio signal is stopped. The limited power supply capability can be utilized effectively without waste, and the extension of the power source life can be promoted.

  Further, according to the present invention, a stop signal transmitted from the security master can be received by the detection sensor, and the threatening function of the detection sensor can be stopped from the security master by remote operation.

  In addition, according to the present invention, for example, when wireless communication between the detection sensor and the security parent device is performed via a repeater, for example, when a delay in the arrival of the alarm signal to the detection sensor is expected, quick threatening It is possible to call for the early withdrawal of intruders.

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

[First Embodiment]
First, the crime prevention system 1 shown as the first embodiment of the present invention will be described with reference to FIG. The security system 1 includes a plurality of sensor transmitters / receivers 10 _n (n is a natural number) that are detection sensors, and a security parent device that can perform two-way wireless communication with the sensor transmitter / receiver 10 _n using a predetermined frequency band. 20.

The sensor transmitter / receiver 10 _n transmits a radio signal to the security master device 20, receives the radio signal transmitted from the security master device 20, the radio transmitter / receiver 12, and a carrier wave having a predetermined frequency based on the data to be transmitted. modulates, a modem part 13 for taking out and demodulates the data modulated on the received radio signal, a signal processing section 14 for centrally controlling the sensor transceiver 10 _n, at least the sensor transceiver 10 _n Each of the sensor transceivers 10 _n according to the control of the data storage unit 15 storing the uniquely identified identification information, the sensor unit 16 detecting the intruder, the power source control unit 17, and the power source control unit 17. And a power source 18 such as a battery for supplying power to the functional unit.

Since the sensor transceiver 10 _n having such a configuration has a small shape and a built-in power source 18 such as a battery, it can be installed in various places inside and outside various buildings including a house. The place where the sensor transceiver 10 _n is installed is determined by the sensing method of the sensor unit 16.

  The sensor unit 16 is a detection sensor that can detect any abnormal state in the management jurisdiction area, such as the presence of an intruder who has illegally entered the building and the surrounding area of the building managed by the security system 1. Yes, for example, a magnet sensor (open / close sensor) that indirectly detects the presence of an intruder by detecting opening / closing of a window or door (door), or detecting a temperature difference between the temperature of an object and the temperature of a person A heat ray sensor that directly detects the presence of an intruder can be used.

As described above, the sensor transmitter / receiver 10 _n is installed in a window, a door (door) or the like when a magnet sensor is used as the sensor unit 16, and when a heat ray sensor is used, It will be installed on walls and ceilings.

The signal processor 14 receives the sensor transmitter / receiver stored in the data storage unit 15 when the sensor unit 16 detects the presence of an intruder who has illegally entered the management jurisdiction area of the security system 1. 10n is read, identification information uniquely identifying _n is controlled, the power control unit 17 is controlled, power supply to the radio transmission / reception unit 12 and the modem unit 13 is started, and further, the radio transmitter / receiver unit 12 and the modem unit 13 are controlled. Then, a wireless signal (hereinafter also referred to as a detection signal) to which the read identification information is attached is transmitted to the security parent device 20 via the antenna 11.

At this time, the signal processing unit 14 repeatedly transmits the detection signal a predetermined number of times, assuming a case where the detection signal cannot be transmitted to the security parent device 20 due to radio wave interference or the like. Thus, it is possible to improve the reliability of the sensor transceiver 10 _n of intruder detection.

The signal processing unit 14 is attached to the radio signal demodulated by the modem unit 13 in response to the radio signal transmitted from the security master 20 and received via the antenna 11 and the radio transceiver unit 12. And the identification information that uniquely identifies the sensor transceiver 10 _n stored in the data storage unit 15 are compared, and it is determined whether or not the wireless signal is transmitted to itself.

  When the identification signals match, the signal processing unit 14 determines that the signal is a radio signal transmitted to itself, and executes processing according to the command request for the transmitted radio signal. Specifically, when the signal processing unit 14 receives a response signal transmitted from the security parent device 20 that has received the detection signal, it is not necessary to transmit the detection signal up to a predetermined number of times or to receive the response signal. For this reason, control is performed so as to stop power supply to all functional units related to radio signal transmission / reception, such as the radio transmission / reception unit 12 and the modem unit 13.

As described above, each functional unit of the sensor transceiver 10 _n is supplied with power by the power source 18 that is a battery. The amount of power supplied to the wireless transmission / reception unit 12 and the modulation / demodulation unit 13 involved in transmission / reception of wireless signals is very large, and the amount of power stored in the power supply 18 is greatly reduced. Therefore, the power supply 18 is limited by controlling the power supply to the wireless transmission / reception unit 12 and the modulation / demodulation unit 13 in response to receiving the response signal as described above by the signal processing unit 14. The power supply capability can be used effectively without waste.

  In addition, the signal processing unit 14 sets the reception standby time for receiving the response signal only to a predetermined time, and when the predetermined time has elapsed, as described above, according to having transmitted the detection signal a predetermined number of times, Control is performed so as to stop power supply to all functional units related to transmission / reception of wireless signals such as the wireless transmission / reception unit 12 and the modem unit 13. Thus, by limiting the reception standby time for receiving the response signal, the power supply capability of the power source 18 can be secured for a long time.

As shown in FIG. 1, the security master unit 20 sends a radio signal to the sensor transceiver 10 _n, the antenna 21 for receiving radio signals transmitted from the sensor transceiver 10 _n, a wireless transceiver unit 22 transmits A modulation / demodulation unit 23 that modulates a carrier wave of a predetermined frequency based on the data and demodulates and extracts the data modulated into the received radio signal; a signal processing unit 24 that comprehensively controls the security master unit 20; A data storage unit 25 that stores identification information of all the sensor transceivers 10 _n constituting the system 1, an operation unit 26 that is, for example, a push button for operating various functions of the security master unit 20, and a display The intruder has been detected for a person around by ringing in response to receiving the detection signal transmitted from the unit 27 and the sensor transceiver 10 _n. The sound part 28 which alert | reports is provided.

The security master device 20 having such a configuration is a large device as compared with the sensor transceiver 10 _n . For example, the display unit 27 is easily visible at a predetermined place in the building, and the operation unit 26 is operated. It is fixedly installed at a position where it is easy to do. Therefore, a fixed power source is used as the power source.

The display unit 27 is, for example, a light emitting element such as an LED (Light Emitting Diode), a light emitting lamp, or the like. The display unit 27 changes the display form according to the lighting, extinction, and blinking control by the signal processing unit 24 when a wireless signal transmitted from the sensor transceiver 10 _n is received or when the operation unit 26 is operated. In this way, the signal reception status, operation status, and the like are visually presented to the user. For example, when a detection signal transmitted from the sensor transceiver 10 _n is received, a light-emitting lamp that identifies a detection area where an intruder can be detected by the installation of the sensor transceiver 10 _n flashes. Inform the user of the location of the intruder.

  The display unit 27 may be of any type as long as the user can glance at the display result. For example, an LED that can emit red light, green light, and blue light is used. By changing the combination, the display form can be changed in the same manner as the above-described extinguishing, lighting, and blinking. In addition to such LEDs, for example, a small and thin EL (Electric Luminescence) light emitting panel may be used. The display unit 27 may be a liquid crystal display that can display character information and image information.

The data storage unit 25 stores all the identification information of the sensor transceiver 10 _n constituting the crime prevention system 1 in association with information that can specify the detection area in which the sensor transceiver 10 _n is installed. The information that can specify the detection area is, for example, information that specifies the display unit 27 that is a light-emitting lamp associated with the detection area, or symbol information that is displayed on the display unit 27 that is a liquid crystal display or a light-emitting panel. Etc.

Thereby, information associated with the data storage unit 25 is acquired from the identification information acquired from the detection signal transmitted from the sensor transmitter / receiver 10 _n, and presented to the user via the display unit 27. The detection area where the person is detected can be specified.

The signal processing unit 24 is transmitted from the sensor transceiver 10 _n and attached to the detection signal demodulated by the modem unit 23 in response to reception of the detection signal via the antenna 21 and the wireless transmission / reception unit 22. The identification information and the identification information that uniquely identifies the sensor transceiver 10 _n stored in the data storage unit 25 are compared, information stored in association with each other is read, and the acoustic unit 28 is caused to ring. Then, the signal processing unit 24 presents the detection area where the intruder specified by the read information is detected to the user via the display unit 27.

Further, the signal processing unit 24 generates a response signal attached with identification information acquired by the detection signal in response to receiving the detection signal transmitted from the sensor transceiver 10 _n , and the modulation / demodulation unit 23, wireless transmission / reception The data is transmitted to the sensor transceiver 10 _n via the unit 22 and the antenna 21. The sensor transmitter / receiver 10 _{n that} has received the response signal can recognize that the response signal is addressed to itself by referring to the identification information attached to the response signal.

  The security master device 20 can set a monitoring mode that is an operation mode of the security master device 20 such as a cut mode, a notification mode, and a warning mode for each detection area.

For example, when the detection area is set to the off mode, even if a detection signal transmitted from the sensor transmitter / receiver 10 _n installed in the detection area is received, no notification or notification is made. Further, when the detection area is set to the notification mode, in response to the reception of the detection signal transmitted from the sensor transmitter / receiver 10 _n installed in the detection area, the sound unit 28 and the display unit 27 respectively issue notification sounds. Or, a notification display (for example, a green lamp is turned on) is performed. Further, when the detection area is set to the alert mode, the sound unit 28 and the display unit 27 respectively generate an alarm sound (alarm message) in response to receiving the detection signal transmitted from the sensor transceiver 10 _n installed in the detection area. ) And warning display (for example, a red lamp is lit).

[Processing operation of security system 1]
Next, the processing operation of the crime prevention system 1 will be described using the timing chart shown in FIG.

In step S1, the security base unit 20 is in a idle state of waiting for detection signals transmitted from the sensor transceiver 10 _n.

In step S2, the sensor transmitter / receiver 10 _n is in a sleep state in which power is supplied to the sensor unit 16 by the power control unit 17 and only the sensing function of the intruder into the detection area by the sensor unit 16 is functioning. Yes.

In step S3, the signal processing unit 14 of the sensor transceiver 10 _n is an intruder by a sensor unit 16 determines whether it has been detected. If an intruder is detected, the signal processing unit 14 proceeds to step S4. If no intruder is detected, the signal processing unit 14 returns to step S2, and continues the above-described sleep state.

In step S4, the signal processing unit 14 of the sensor transceiver 10 _n controls the power control unit 17, starts the supply of power to all of the functional unit according wireless transceiver 12, such as the modem unit 13 for transmitting and receiving radio signals Control to do. In response to the start of power supply, the signal processing unit 14 starts measuring time with a built-in timer (not shown).

In step S5, the signal processing unit 14 of the sensor transceiver 10 _n, in response to the intruder by the sensor unit 16 is detected, reads the identification information from the data storage unit 15, the read identification information to the attached detection signal Is generated and transmitted to the security master unit 20. At this time, the signal processing unit 14 counts the number of transmissions every time the detection signal is transmitted.

In step S6, the signal processor 24 of the security base unit 20 determines whether it has received a detection signal transmitted from the sensor transceiver 10 _n. If the signal processing unit 24 receives the detection signal, the process proceeds to step S7 and step S8. If the signal processing unit 24 fails to receive the detection signal, the signal processing unit 24 returns to step S1 and waits for reception of the detection signal. Continue idling.

In step S7, in response to receiving the detection signal, the signal processing unit 24 of the security master device 20 reads the identification information attached to the detection signal, and generates a response signal with the read identification information attached. Transmit to the sensor transceiver 10 _n .

  In step S <b> 8, the signal processing unit 24 of the security master device 20 performs an operation according to the situation in response to receiving the detection signal. Specifically, the signal processing unit 24 controls the sound unit 28 to ring according to the reception of the detection signal, and specifies the detection area associated with the identification information acquired from the detection signal. Information is read from the data storage unit 25 and presented to the user via the display unit 27.

In step S9, the signal processing unit 14 of the sensor transceiver 10 _n is a determination whether it has received a response signal transmitted from the security base unit 20. The signal processing unit 14 proceeds to step S12 when the response signal is received, and proceeds to step S10 when the response signal cannot be received.

In step S10, the signal processing unit 14 of the sensor transceiver 10 _n refers to the built-in timer (not shown), determines whether or not predetermined time has elapsed from the start of power supply to all of the functional unit related to transmission and reception of radio signals do. When the predetermined time has not elapsed, the signal processing unit 14 returns the process to step S9, while when the predetermined time has elapsed, the signal processing unit 14 proceeds to the process to step S11.

In step S11, the signal processing unit 14 of the sensor transceiver 10 _n determines whether the detection signal is transmitted a predetermined number of times. If the detection signal is transmitted a predetermined number of times, the signal processing unit 14 proceeds to step S12. If the detection signal is not transmitted the predetermined number of times, the signal processing unit 14 returns the process to step S5.

In step S12, the signal processing unit 14 of the sensor transceiver 10 _n controls the power supply control unit 17 stops the power supply to all of the functional unit related to transmission and reception of radio signals.

[Effect of the first embodiment]
Thus, the sensor transceiver 10 _n of the crime prevention system 1 shown as the first embodiment of the present invention has a power supply according to the signal processing unit 14 detecting the presence of an intruder by the sensor unit 16. The control unit 17 is controlled to start power supply to all functional units related to transmission / reception of radio signals.

  Then, the signal processing unit 14 receives all response signals for the detection signal transmitted by the security master device 20 within a predetermined time after the power supply is started. Stops power supply to the function unit.

  If the signal processing unit 14 fails to receive the response signal even after a predetermined time has elapsed since the power supply is started, the signal processing unit 14 transmits the detection signal a predetermined number of times. Stops power supply to all functional units involved in transmission / reception.

As a result, the sensor transmitter / receiver 10 _n performs the communication with respect to all the function units related to the transmission / reception of the wireless signal only for the minimum period necessary to reliably notify the security base unit 20 that the intruder has been detected by wireless communication. Since the power can be supplied, the limited power supply capability of the power source 18 can be effectively utilized without waste, and the life extension of the power source 18 can be promoted.

[Second Embodiment]
Then, the crime prevention system 2 shown as the 2nd Embodiment of this invention is demonstrated using FIG. As shown in FIG. 3, the security system 2 shown as the second embodiment includes the sensor transceiver 10 _n and the security master device 20 of the security system 1 shown as the first embodiment described with reference to FIG. Instead of this, a plurality of sensor transceivers 10A _n (n is a natural number) and a security master device 20A are provided.

The sensor transmitter / receiver 10A _n and the security master unit 20A are obtained by adding some functions to the sensor transmitter / receiver 10 _n and the security master unit 20 of the security system 1 shown as the first embodiment of the present invention. Since there is almost the same configuration, the same number is assigned to the overlapping portions, and the description is omitted.

If the security system 2, a security base unit 20A which has received the detection signal transmitted in response to the detection of the presence of an intruder by a sensor transceiver 10A _n is an alert mode the acoustic part 28, a display unit 27 In addition to outputting an alarm sound (alarm message) and displaying an alarm (for example, a red lamp is lit), it is possible to send an alarm signal to an external device and report the fact to the outside. .

Sensor transceiver 10A _n has a menacing ability to intimidate intruders in response to receiving the alarm signal transmitted from the security base unit 20A became alert mode. As shown in FIG. 3, the sensor transceiver 10A _n includes a sound unit 19, a sound unit 19 under control of the signal processing unit 14 in response to the reception of the alarm signal transmitted from the security base unit 20 An intruder can be intimidated by issuing a threatening sound (intimidating message).

Incidentally, intimidation functions of the sensor transceiver 10A _n, since it may if to intimidate intruders present in the vicinity of the sensor transceiver 10A _n, is limited to the acoustic part 19 to emit rattling sounds as described above For example, a lamp or a mechanical mechanism that emits strong light may be used.

[Processing operation of security system 2]
Next, the processing operation of the security system 2 will be described using the timing chart shown in FIG.

In step S21, the security base unit 20A is in a idle state of waiting for detection signals transmitted from the sensor transceiver 10A _n.

In step S _< b _> 22, the sensor transceiver 10 _< / b _{> An} is in a sleep state in which power is supplied to the sensor unit 16 by the power supply control unit 17 and only the sensing function of the intruder into the detection area by the sensor unit 16 is functioning. Yes.

In step S23, the signal processing unit 14 of the sensor transceiver 10A _n is an intruder by a sensor unit 16 determines whether it has been detected. If an intruder is detected, the signal processing unit 14 proceeds to step S24. If the intruder is not detected, the signal processing unit 14 returns to step S22 and continues the sleep state described above.

In step S24, the signal processing unit 14 of the sensor transceiver 10A _n controls the power control unit 17, starts the supply of power to all of the functional unit according wireless transceiver 12, such as the modem unit 13 for transmitting and receiving radio signals Control to do. In response to the start of power supply, the signal processing unit 14 starts measuring time with a built-in timer (not shown).

In step S25, the signal processing unit 14 of the sensor transceiver 10A _n, in response to the intruder by the sensor unit 16 is detected, it reads the identification information from the data storage unit 15, reads the identification information appended detection signal Is transmitted to the security master unit 20A. At this time, the signal processing unit 14 counts the number of transmissions every time the detection signal is transmitted.

In step S26, the signal processing unit 24 of the security base unit 20A determines whether it has received a detection signal transmitted from the sensor transceiver 10A _n. If the signal processing unit 24 receives the detection signal, the process proceeds to step S27. If the signal processing unit 24 fails to receive the detection signal, the signal processing unit 24 returns to step S21 and waits for reception of the detection signal. continue.

  In step S27, the signal processing unit 24 of the security parent device 20A determines whether or not the current monitoring mode is the alert mode. The signal processing unit 24 advances the process to step S28 and step S29 when in the warning mode, and advances the process to step S32 when in the monitoring mode other than the warning mode.

In step S28, the signal processing unit 24 of the security master unit 20A reads out the identification information attached to the received detection signal in response to the warning mode, and sounds a threatening sound with the read out identification information attached. and it generates an alarm signal to send to the sensor transceiver 10A _n to tell it to.

  In step S29, the signal processing unit 24 of the security master 20A controls the sound unit 28 to sound an alarm sound and controls the display unit 27 to display an alarm.

  In step S30, the signal processing unit 24 of the security parent device 20A determines whether the alert mode has been canceled. When the warning mode is released, the signal processing unit 24 proceeds to step S31. When the warning mode is not released, the signal processing unit 24 is in a standby state until the release operation is performed.

  In step S31, the signal processing unit 24 of the security master device 20A controls the sound unit 28 to stop the sound of the alarm sound and controls the display unit 27 to display an alarm in response to the release of the alert mode. Stop.

In step S32, the signal processing unit 24 of the security master 20A reads the identification information attached to the received detection signal in accordance with the monitoring mode other than the warning mode, and attached the read identification information. It generates a response signal instructing not to sound threatening sound transmitted to the sensor transceiver 10A _n.

In step S33, the signal processing unit 14 of the sensor transceiver 10A _n is a determination whether it has received an alarm signal or a response signal is transmitted from the security base unit 20. When the signal processing unit 14 receives an alarm signal or a response signal, the signal processing unit 14 proceeds to step S37. On the other hand, when the signal processing unit 14 cannot receive the alarm signal or the response signal, the signal processing unit 14 proceeds to step S34.

In step S34, the signal processing unit 14 of the sensor transceiver 10A _n refers to the built-in timer (not shown), whether predetermined time has passed from the start of power supply to all of the functional unit related to transmission and reception of radio signals to decide. When the predetermined time has not elapsed, the signal processing unit 14 returns the process to step S33, and when the predetermined time has elapsed, the signal processing unit 14 proceeds to step S35.

In step S35, the signal processing unit 14 of the sensor transceiver 10A _n determines whether the detection signal is transmitted a predetermined number of times. If the signal processing unit 14 transmits the detection signal a predetermined number of times, the signal processing unit 14 proceeds to step S36. If the detection signal is not transmitted the predetermined number of times, the signal processing unit 14 returns the process to step S25.

In step S36, the signal processing unit 14 of the sensor transceiver 10A _n controls the power supply control unit 17 stops the power supply to all of the functional unit related to transmission and reception of radio signals. The signal processing unit 14 returns the process to step S22 when the process of step S36 is completed.

In step S37, the signal processing unit 14 of the sensor transceiver 10A _n, in response to receiving the alarm signal or response signal and controls the power control unit 17, the power supply to all of the functional unit related to transmission and reception of radio signals Stop supplying.

In step S38, the signal processing unit 14 of the sensor transceiver 10A _n controls the sound unit 19 in response to an instruction received alarm signal or response signal. When receiving the alarm signal, the signal processing unit 14 controls the sound unit 19, thereby sounding the rattling sound menacing intruders present in the vicinity of the sensor transceiver 10A _n. When the response signal is received, the signal processing unit 14 controls the acoustic unit 19 so as not to sound a threatening sound.

In step S39, the signal processing unit 14 of the sensor transceiver 10A _n is defined since the ringing is rattling sound by an acoustic part 19 in response to receiving the alarm signal time (e.g., very short time such as about 10 seconds ) Determine if it has passed. If the specified time has elapsed, the signal processing unit 14 proceeds to step S40 to stop the sound of the threatening sound. If the specified time has not elapsed, the signal processing unit 14 is in a standby state. The signal processing unit 14 returns the process to step S22 after completing the process of step S40.

Thus, when the specified time for sounding the rattling sound acoustic unit 19 is short, the sensor transceiver 10A _n is transmitted from the security base unit 20A which has received the detection signal to the warning mode, the acoustic portion 19 depending on by ringing of the rattling sound that has received an alarm signal that trigger threatening process for intruders, controls the power control unit 17, all related to the reception of the radio signals of at least the sensor transceiver 10A _n functional unit The power supply to is stopped.

  As a result, when the intimidation of the intruder by the acoustic unit 19 is executed and it is no longer necessary to receive the alarm signal, the power supply to all the functional units involved in the reception of the radio signal is stopped. Thus, the power supply capability can be effectively utilized without waste, and the life of the power source 18 can be extended.

[Process when threatening time is long]
The processing operation of the crime prevention system 2 described with reference to the timing chart shown in FIG. 4 is processing when the specified time for sounding the threatening sound by the acoustic unit 19 is very short in step S39, for example, about 10 seconds. is there.

Rattling sound of the acoustic portion 19, i.e., the threatening processing by the sensor transceiver 10A _n for intruders to be executed in response to receiving the alarm signal transmitted from the security base unit 20A, the provisions of the order of 10 seconds as described above In the case of about 10 minutes, which is significantly longer than the time, the threatening process can be stopped by transmitting a stop signal from the security master 20A.

  With reference to the timing chart shown in FIG. 5, the processing operation of the crime prevention system 2 when the specified time for executing the threatening process by the acoustic unit 19 is long will be described. 5 adds the process of step S30a between step S30 and step S31 of the timing chart shown in FIG. 4, and replaces the process of step S37 to step S40 with step S41 to step S41. Since only the processing of S45 is performed, the same step numbers are assigned to overlapping portions, and the description thereof is omitted.

In step S30a, the signal processing unit 24 of the security base unit 20, in response to the warning mode it is released, and transmits a stop signal that instructs to stop the sounding of the rattling sound sensor transceiver 10A _n.

In step S41, the signal processing unit 14 of the sensor transceiver 10A _n controls the sound unit 19 in response to an instruction received alarm signal or response signal. When receiving the alarm signal, the signal processing unit 14 controls the sound unit 19, thereby sounding the rattling sound menacing intruders present in the vicinity of the sensor transceiver 10A _n. When the response signal is received, the signal processing unit 14 controls the acoustic unit 19 so as not to sound a threatening sound.

In step S42, the signal processing unit 14 of the sensor transceiver 10A _n is a determination whether the elapsed predetermined time since the ringing is rattling sound by an acoustic part 19 in response to receiving the alarm signal. If the specified time has elapsed, the signal processing unit 14 proceeds to step S44. If the specified time has not elapsed, the signal processing unit 14 proceeds to step S43.

In step S43, the signal processing unit 14 of the sensor transceiver 10A _n determines whether it has received the stop signal. If the signal processing unit 14 receives a stop signal, the signal processing unit 14 proceeds to step S44. If the signal processing unit 14 has not received the stop signal, the signal processing unit 14 returns the process to step S42.

In step S44, the signal processing unit 14 of the sensor transceiver 10A _n is the reception of the stop signal, or in response to defined the time elapsed, to stop the sounding of controlling the sound unit 19 rattling sound.

In step S45, the signal processing unit 14 of the sensor transceiver 10A _n, in response to the ringing of the threatening sound by sound unit 19 is stopped, it is not necessary to receive the stop signal, controls the power control unit 17 Then, the power supply to all the functional units related to transmission / reception of radio signals is stopped.

As described above, when the specified time for sounding the threatening sound in the acoustic unit 19 is long, the power control unit 17 is controlled within the specified time, and at least sensor transmission / reception is performed while the threatening sound is sounding. to continue the power supply to all of the functional unit related to the reception of a radio signal bowl 10A _n. Thus, it is possible to receive a stop signal transmitted from the security base unit 20A, the ringing of the sound unit 19 is a threat function of the sensor transceivers 10A _n from a security master unit 20A can be stopped by remote control .

[Light threatening with sensor transceiver]
The sensor transceiver 10A _n of the security system 2, FIG. 4, as described with reference to the timing chart of FIG. 5, the acoustic from receiving the alarm signal transmitted from the security base unit 20A according to a detection signal The part 19 was ringed to threaten the intruder.

In response to the presence of the intruder by the sensor unit 16, the signal processing unit 14 of the sensor transceiver 10 _< / b _> An controls the sound unit 19 to intimidate the intruder so as to sound a threatening sound. You can also

  The timing chart shown in FIG. 6 shows the timing at which the acoustic unit 19 is controlled so as to threaten the intruder when the sensor unit 16 detects the presence of the intruder. In FIG. 6, only step S25a is provided after step S25 of the timing chart shown in FIG. 4, and therefore, overlapping portions are denoted by the same step numbers and description thereof is omitted.

In step S25a, the signal processing unit 14 of the sensor transceiver 10A _n, in response to the presence of an intruder in the sensor unit 16 is detected, and controls the sound unit 19, thereby sounding the rattling sound. The threatening sound that sounds at this timing is preliminarily sounded against the threatening sound that sounds when the alarm signal transmitted from the security master 20A is received. Is also effective against intruders.

This is because, for example, a wireless communication between the sensor transmitter / receiver 10A _n of the crime prevention system 2 and the security master unit 20 is performed via a relay unit (not shown), and a delay is expected in arrival of the alarm signal to the sensor transmitter / receiver 10A _n . In some cases, prompt threats are made, so that intruders can be withdrawn early.

[Effect of the second embodiment]
Thus, when the signal processing unit 14 of the sensor transceivers 10A _n of the security system 2 shown a second embodiment of the present invention, the specified time to sound the rattling sound acoustic unit 19 is short time In response to receiving an alarm signal transmitted from the security master 20A that has received the detection signal in the alert mode and triggering intimidation processing for an intruder due to the sound of the intimidation sound of the acoustic unit 19, controlled to stop supplying power to all of the functional unit related to the reception of the radio signals of at least the sensor transceiver 10A _n.

Thus, the signal processing unit 14 of the sensor transceiver 10A _n is the time when the need no longer to receive the threat is executed alarm signal for intruder sound unit 19 controls the power control unit 17, the reception of the radio signal Therefore, the limited power supply capability of the power source 18 can be effectively used without waste, and the life of the power source 18 can be extended.

The signal processing unit 14 of the sensor transceiver 10A _n, if the specified time to sound the rattling sound acoustic unit 19 is long, within the specified time, the power controlling unit 17, the rattling sound while ringing continues the power supply to all of the functional unit related to the reception of the radio signals of at least the sensor transceiver 10A _n.

Remote Thus, the sensor transceiver 10A _n, it becomes possible to receive a stop signal transmitted from the security base unit 20A, the ringing of the sound unit 19 is a threat function of the sensor transceivers 10A _n from a security master unit 20A It can be stopped by operation.

Further, the signal processing unit 14 of the sensor transceiver 10A _n, in response to the presence of an intruder by a sensor unit 16 is detected, thereby sounding the rattling sound controls the sound unit 19 to intimidate intruders .

Thus, for example, carried out through a repeater (not shown) the wireless communication with the sensor transceiver 10A _n and security base unit 20A of the security system 2, the delay is expected to reach the sensor transceiver 10A _n alarm signals In some cases, prompt threats are made, so that intruders can be withdrawn early.

  The above-described embodiment is an example of the present invention. For this reason, the present invention is not limited to the above-described embodiment, and various modifications can be made depending on the design and the like as long as the technical idea according to the present invention is not deviated from this embodiment. Of course, it is possible to change.

It is a figure for demonstrating the structure of the crime prevention system shown as the 1st Embodiment of this invention. It is a timing chart for demonstrating the processing operation of the said crime prevention system. It is a figure for demonstrating the structure of the crime prevention system shown as the 2nd Embodiment of this invention. It is a timing chart for demonstrating the processing operation of the said crime prevention system. It is a timing chart for demonstrating the process at the time of threatening time being long. It is a timing chart for demonstrating the light threatening process by a sensor transmitter / receiver.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Crime prevention system 2 Crime prevention system 10 _n sensor transmitter / receiver 10A _n sensor transmitter / receiver 16 Sensor part 17 Power supply control part 18 Power supply 19 Sound part 20 Security master machine 20A Security master machine

Claims (3)

Detection means for detecting any abnormal state;
A transmission unit that transmits a detection signal as a radio signal to an external device in response to the detection of an abnormal state by the detection unit;
Receiving means for receiving a response signal indicating a response from an external device that has received the detection signal;
In response to the detection of an abnormal state by the detection means, the power supply to the transmission means and the reception means is started,
In response to receiving a response signal by the receiving means within a predetermined time after the start of power supply, control is performed to stop the power supply to the transmitting means and the receiving means,
When a predetermined time elapses after the power supply is started and the response signal cannot be received by the reception unit, the transmission unit and the reception unit according to the transmission of the detection signal a predetermined number of times. Power supply control means for controlling the power supply to be stopped ,
A first threatening means for threatening an intruder in response to receiving the warning signal transmitted by the receiving means from an external device that has received the detection signal transmitted by the detection sensor;
Intimidation stop control means for controlling to stop threatening by the first threatening means regardless of the detection result by the detection means in response to receiving a stop signal transmitted from the external device whose warning mode has been released With
The power supply control means includes
When the threatening time for threatening by the first threatening means is less than a predetermined time, control is performed to stop the power supply to the receiving means in response to receiving the warning signal by the receiving means,
When a threatening time for threatening by the first threatening means is equal to or longer than a predetermined time, an alarm signal is received by the receiving means, and while the threatening by the first threatening means is being performed, the reception means continues. Control to supply power
A detection sensor characterized by. The detection sensor according to claim 1, further comprising second threatening means for threatening an intruder when the transmission means transmits a detection signal as a wireless signal to an external device. A detection sensor that transmits a detection signal as a wireless signal by a transmission unit in response to detection of some abnormal state by the detection unit, and an abnormal state that has occurred in response to reception of the detection signal transmitted by the detection sensor In a security system equipped with a security master device that informs
The detection sensor is
Receiving means for receiving a response signal indicating a response from the security master that has received the detection signal;
In response to the detection of an abnormal state by the detection means, the power supply to the transmission means and the reception means is started,
In response to receiving a response signal by the receiving means within a predetermined time after the start of power supply, control is performed to stop the power supply to the transmitting means and the receiving means,
When a predetermined time elapses after the power supply is started and the response signal cannot be received by the reception unit, the transmission unit and the reception unit according to the transmission of the detection signal a predetermined number of times. Power supply control means for controlling to stop the power supply to
The security base unit, when receiving a detection signal transmitted by the detection sensor, a determination means for determining whether or not it is a warning mode;
A transmission signal control means for transmitting a warning signal when the judgment means judges that the warning mode is selected, and for transmitting a stop signal when the judgment means judges that the warning mode is released; Have
The detection sensor is a threatening means for threatening an intruder in response to receiving an alarm signal transmitted from the security master by the receiving means;
Threatening stop control means for controlling to stop threatening by the threatening means regardless of the detection result by the detecting means in response to receiving the stop signal transmitted from the security master by the receiving means. And
The power supply control means controls to stop power supply to the receiving means in response to receiving an alarm signal by the receiving means when a threatening time for threatening by the threatening means is less than a predetermined time. If a threatening time for threatening by the threatening means is a predetermined time or more, an alarm signal is received by the receiving means, and power is continuously supplied to the receiving means while threatening by the threatening means is being made. To control
Security system characterized by

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