JP3023998U - Human body detection processing device for security - Google Patents

Abstract

(57) [Summary] [Purpose] It is possible to clarify the distinction from false alarms, enable a transmission mode approaching in real time, and suppress wasteful battery consumption. Reliability and economy Provided is a human body detection processing device for security, which has both of the characteristics. In a human body detection processing device equipped with a transmission unit 4 that wirelessly transmits a detection output generated by detecting a human body as a detection signal to a predetermined receiving unit 5, a counting unit that counts the number of times the detection signal is transmitted. 2, a clocking means 3 for setting a set time by generation of a start command, and a transmitting means 4
On the other hand, when the number of transmissions counted by the counting means 3 reaches a preset number of times, a start command is supplied to the timing means 3 to prohibit transmission of a detection signal for a set time of the timing means 3 And a processing means 1.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a human body detection processing device for security, and more particularly to a human body detection processing device for security of a type that wirelessly transmits a human body detection signal.

[0002]

[Prior art]

In the security system using the security human body detection device, as shown in FIG. 14, the security human body detection devices S ₁ , S ₂ , and S ₃ are installed at a plurality of predetermined locations of the building B. This security human body detection device is composed of a human body detection sensor, a processing circuit that determines whether the detection output is a detection signal to be transmitted, and a transmitter that transmits the detection signal to a predetermined receiver. . With this configuration, when a human body is first detected by the human body detection sensor, a detection output is generated, and the detection output is transmitted to the control panel 90 by wire or wirelessly. Here, when transmitting by wire, this detection output is directly transmitted to the control panel 90 as a detection signal, while when transmitting by wireless, the detection output is processed by the processing circuit. It has a form in which a predetermined detection output is transmitted to the control panel 90 as a detection signal to be transmitted after the processing is performed for the transmission according to the legal regulation. The control panel 90 is a receiver for receiving such detection signals, and also has a function of a transmitter for transmitting an alarm signal to a security company installed in the building B by wire, for example, to a security company. It has become a thing. Further, in the control panel 90, there is a warning mode in which a warning signal is immediately sent to the security company when a detection signal is received, or a warning cancellation mode in which a warning signal is not sent even when a detection signal is received. You can choose either one. By appropriately performing such mode switching, the security company is prevented from sending an alarm signal when there is no need for caution. Recently, a wireless system adapted to market trends has been introduced, and in this case, a battery such as a battery is used as a power source for driving the device.

As described above, there are wired and wireless modes for transmitting the detection output, and they are appropriately used. Among them, the conventional technology in wireless will be described below. Currently, in this wireless transmission, there is a legal regulation that transmission must be performed at a predetermined transmission interval, and it is not legally possible to transmit the detection output as it is without regulation.

Therefore, in the related art, in a security human body detection processing device that transmits a detection signal wirelessly, for example, the detection output of the human body detection sensor shown in the time chart of FIG. 13A follows the transmission of the detection output. In the case of transmission, the detection signal in the transmission form as shown in FIG. 7B is transmitted. However, when such a transmission mode is adopted, the number of times of transmission increases, which causes a problem that battery consumption becomes severe. As an improvement on this point, an apparatus for transmitting a detection signal in a transmission mode as shown in FIG. This device is configured to prohibit the transmission for 2 minutes after transmitting one detection signal. Thus, the human body detection sensor newly detects the human body for several minutes for one notification. Even if it is detected, the detection signal is prevented from being transmitted, so that the consumption of the battery can be suppressed.

[0005]

[Problems to be solved by the device]

 First, when the detection output is transmitted wirelessly as a detection signal, if the transmission is performed in real time or in a state close to it, the number of times of transmission increases, resulting in high power consumption and high cost. . In particular, when a battery such as a battery is used as the driving power source, the number of times of maintenance such as replacement of the battery is increased, which causes a troublesome problem.

[0006] The latter conventional technique described above alleviates the power consumption in wireless transmission, but since this technique is configured to issue a single alert, it can be distinguished from a sporadic malfunction. It creates a new problem of not attaching. In fact, it is often considered a false alarm if there is an interval of a few minutes after one alert. Moreover, as a problem of wireless transmission, there are restrictions on real-time transmission, which often affects reliability.

The present invention has been made to solve these problems, and it is possible to suppress wasteful power consumption in both wired and wireless transmission modes, and to clearly distinguish it from false alarms. In addition to the above, it is an object of the present invention to provide a human body detection processing device for security, which is economical and reliable in that it enables near real-time transmission.

[0008]

[Means for Solving the Problems]

 In order to solve the above-mentioned object, the present invention is configured as follows. First, the human body detection processing device for security (hereinafter referred to as the present invention 1) of the present invention corresponding to claim 1 will be described with reference to FIG. 1 which is a basic block diagram of the present invention 1. In the human body detection processing device provided with the transmission means 4 for transmitting the detection output generated by the above as a detection signal to the predetermined receiving part 5, the counting means 2 for counting the number of times of transmission of the detection signal and the generation by the start command are set. When the number of times of transmission counted by the counting unit 3 reaches a preset number of times, the start command is supplied to the timing unit 3 and the transmitting unit 4, and the start instruction is supplied to the timing unit 3. It is characterized by including the transmission prohibition processing means 1 for prohibiting the transmission of the detection signal only for the set time.

As in the human body detection processing device for security of the present invention corresponding to claim 2 (hereinafter referred to as the present invention 2), the transmission prohibition processing means 1 generates a detection output while the transmission is prohibited. In such a case, the transmission prohibition processing for prohibiting the transmission of the detection signal for the set time of the timekeeping means 3 is performed by re-supplying the start command with the timekeeping means 3 being reset at each occurrence time. May be.

The configuration of each invention according to claims 3 to 5 will be described below with reference to FIG. 2 which is a basic block diagram thereof. First, the security human body detection processing device of the present invention according to claim 3 (hereinafter referred to as the present invention 3) is a time interval between a detection output generated by detecting a human body and a detection output transmitted immediately before the detection output. And calculating / processing means 7 for determining a detection output having a value equal to or greater than a predetermined time interval as a detection signal to be transmitted, and wirelessly transmitting the detection signal to a predetermined receiving unit 5. A human body detection processing apparatus including a transmission unit 4 includes a counting unit 2 that counts the number of times the detection signal is transmitted, and a clocking unit 3 that sets a set time when a start command is issued, and the calculation / processing is performed. The processing means 7 supplies a start command to the time measuring means 3 to the transmitting means 4 when the number of transmissions counted by the counting means 2 reaches a preset number of times, and when the time measuring means 3 is set. It is characterized by being configured to perform a transmission prohibition process to prohibit the transmission of the detection signal alone.

According to a fourth aspect of the present invention, there is provided a security human body detection processing device (hereinafter, referred to as the present invention 4) which includes a detection output generated by detecting a human body and a detection output transmitted immediately before the detection output. Calculating / processing means 7 for calculating the time interval of the above, and discriminating from the detection signal to be transmitted the detection output having the calculated value equal to or greater than the predetermined time interval, and the detection signal to the predetermined receiving section 5 by radio. The human body detection processing device including a transmission means 4 for transmitting a calculation means is provided with a counting means 2 for counting the number of times the detection signal is transmitted, and a time counting means 3 for counting a set time when a start command is issued. The processing means 7 supplies a start command to the time counting means 3 when the number of times of transmission counted by the counting means 2 reaches a preset number of times with respect to the transmitting means 4, and when the time counting means 3 is set. The transmission of the transmission signal is prohibited only during the period, and when the detection output is generated during the prohibition of the transmission, the start command is re-supplied at the time when the detection output is generated, and the start command is supplied again, thereby measuring It is characterized in that it is configured to perform a transmission prohibition process for prohibiting the transmission of the transmission signal for the set time of the means 3.

Furthermore, the security human body detection processing device of the present invention corresponding to claim 5 (hereinafter referred to as the present invention 5) is obtained by adding the following configuration to the configuration of the present invention 4. That is, when the calculated value of the time interval between the detection output and the detection output transmitted immediately before it is within the predetermined time interval, the calculation / processing means 7 determines the calculated value. By correcting the generation timing of the detection output so that it becomes a time interval, the detection output is determined as the detection signal to be transmitted.

Furthermore, the structure of each of the present inventions corresponding to claims 6 and 7 will be described below with reference to FIG. 3 which is a basic block diagram thereof. First, the security human body detection processing device of the present invention according to claim 6 (hereinafter referred to as the present invention 6) is a time interval between a detection output generated by detecting a human body and a detection output transmitted immediately before the detection output. And calculating / processing means 7 for determining a detection output having a value equal to or greater than a predetermined time interval as a detection signal to be transmitted, and wirelessly transmitting the detection signal to a predetermined receiving unit 5. In a human body detection processing device including a transmission means 4, a first counting means 2a for counting the number of detection outputs generated between detection signals, and an output between detection signals counted by the first counting means 2a. The number of detected outputs storage means 6 for storing the number, the second counting means 2b for counting the number of detected outputs generated within a predetermined time, and the second counting means for counting the number of detected outputs generated within the predetermined time. And 2b, start And a clocking means 3 for setting a set time when an instruction is issued, and the arithmetic / processing means 7 reads out the number of outputs between the detection signals, and sets the data with the output number as a detection signal to be transmitted. When the number of detected outputs counted by the second counting means 2b reaches a preset number of times, the transmitting means 4 is supplied with a start command to the timekeeping means 3 for a set time of the timekeeping means 3. When the transmission of the detection signal is prohibited and the detection output is generated during the prohibition of the transmission, the start command is re-supplied to the above-mentioned time measuring means at each generation time and the time measuring means 3 is reset. It is characterized in that it is configured to perform a transmission prohibition process that prohibits the transmission of the detection signal for the set time.

According to the human body detection processing device for security of the present invention (hereinafter referred to as the present invention 7) corresponding to claim 7, in claim 6, the second counting means 2b counts the transmitted detection signals. At the same time, it is characterized in that a start command is supplied to the timekeeping means 3 when the detection signal becomes a preset number of times.

[0015]

In the present invention 1, the detection output is transmitted to the transmission unit as a detection signal in real time. After the detection signal is transmitted a plurality of times set in advance, the transmission of the detection signal is stopped only for the set time. Since the detection signal is transmitted a plurality of times set in this way, it can be clearly distinguished from a false alarm and the alarm can be surely recognized. After that, the transmission of the detection signal is stopped, so that the battery is not wastefully consumed.

According to the second aspect of the invention, in addition to the function of the first aspect, when the detection output is generated while the transmission of the detection signal is stopped, the transmission stop time is reset again from the time when the detection output is generated. The overall transmission stop time is delayed. Therefore, the reporting is minimized.

The configurations of the present invention 3 to the present invention 7 comply with the legal regulations in wireless transmission, and the detection output is transmitted as a detection signal at a predetermined interval. First, in the present invention 3, the calculation / processing means transmits the detection output generated at a predetermined interval among the detection outputs as the detection signal. Similar to the first proposal, the detection signal is transmitted a plurality of times set in advance, and then the transmission of the detection signal is stopped for the set time.

Further, in addition to the function of the present invention 3, in the present invention 4, when the detection output is generated while the transmission of the detection signal is stopped, the transmission stop time is reset again from the time when the detection output is generated. Therefore, the overall transmission stop time is delayed. Therefore, the reporting is minimized.

Further, in addition to the operation of the present invention 4, in the present invention 5, even if the output time interval between the detection outputs is less than a predetermined time interval, it is converted into a transmittable signal and detected. It becomes possible to transmit a detection signal corresponding to the output.

Further, in the sixth aspect of the present invention, the output number between detection signals is output by the calculation / processing means, and the generation information of the detection output can be recognized. Then, when the number of outputs between the detection signals reaches a predetermined number of times, the transmission of the detection signals is stopped for the set time.

Then, in the present invention 7, as in the case of the present invention 6, the arithmetic / processing means outputs the inter-detection-signal output number, and the generation information of the detection output can be recognized. Further, when the number of transmitted detection signals reaches a predetermined number of times, the transmission of detection signals is stopped for the set time.

[0022]

【Example】

 FIG. 4 shows a hardware configuration of an apparatus to which the embodiment of the present invention is applied. This hardware configuration is common to the respective embodiments of the present invention described below, but the processing functions in the arithmetic / processing circuit 25 are different from each other.

In this hard structure, a sensor 21 that detects a human body in the detection area by infrared rays and generates a detection output is provided, and the detection output of this sensor 21 is input to the arithmetic / processing circuit 25. To be done. There is an arithmetic / processing circuit 25 for discriminating a detection signal to be transmitted based on this detection output, a memory 24 for temporarily storing information, a timer 22 for keeping a preset time, and a predetermined radio. It is composed of a transmission circuit 26 for transmitting a detection signal to the receiver and a counter 23 for counting the number of times of transmission of the transmitted detection signal.

First, an embodiment (hereinafter, referred to as Embodiment 1) corresponding to the first invention will be described below. Now, the arithmetic / processing circuit 25 of the first embodiment drives the timer 22 for 2 minutes at the time when the transmission circuit 26 counts the number of transmissions counted by the counter 23 to three, and drives the timer 22. The configuration is such that the transmission of detection signals is prohibited only for a certain period of time.

FIG. 6 is a detailed flowchart of the detection output process performed by the arithmetic / processing circuit 25 according to the first embodiment. When a detection output is generated, this detection output is transmitted as a detection signal to issue an alarm. At the time when the number of the detected signals issued is 3, the timer 22 is driven for 2 minutes, and the transmission prohibition process is performed from the arithmetic / processing circuit 25 to the transmission circuit 26. During a minute, the detection signal is not issued regardless of whether the detection output is generated or not, which is a so-called transmission prohibition mode. This transmission prohibition mode lasts for 2 minutes, and after 2 minutes have elapsed, this transmission prohibition mode is released.

FIG. 5A shows an example of a detection output time chart, and FIGS. 5B to 5H show a detection signal time chart corresponding to this time chart in each of the invention embodiments. Indicates.

First, as shown in the detection signal time chart [FIG. 5 (b)] in the first embodiment, the detection outputs 2, 3 and 4 are transmitted as detection signals, and the number of transmissions is three times. At this point, transmission is prohibited for 2 minutes. During this period, detection outputs 5 and 10 are generated, but these detection outputs are not transmitted. Then, after the transmission prohibition mode for 2 minutes, the mode again becomes the transmission mode, the detection output 11 is transmitted, and after the lapse of 2 minutes or more, the detection outputs 12, 13, 14 are transmitted as the detection signals. At this point, the number of transmissions is three, and the transmission is prohibited for 2 minutes as before.

Further, in the arithmetic / processing circuit 25 of the second embodiment, the processing contents are the same until the transmission prohibition of 2 minutes is performed at the time when the number of transmissions becomes 3 as in the first embodiment. However, it is characterized in that the transmission prohibition time is extended with the generation of the detection output generated during the transmission prohibition. That is, in the first embodiment, no processing is performed on the detection output during this period, but in the second embodiment, when the detection output occurs during this period, the timer 22 is reset and started at each generation time point. By re-supplying the command, the transmission prohibition process is performed to prohibit the transmission of the detection signal for the time set in the timer 22.

Therefore, for example, when the detection output shown in FIG. 5A is processed by the configuration of the second embodiment, the detection signal of the transmission form shown in FIG. 5C is transmitted. Here, the transmission inhibition is performed for 2 minutes from the time of occurrence of each of the detection outputs 5, 6, 7, 8, 9, 10, 11 generated during the transmission inhibition for 2 minutes. In this case, in the transmission prohibition mode, the transmission prohibition time is updated one after another, and the entire transmission prohibition time is extended (hereinafter referred to as delay processing). Then, when the transmission prohibition mode by the detection output 11 is released, the detection outputs 12, 13, 14 are transmitted as detection signals.

Next, an embodiment corresponding to the present invention 3 (hereinafter referred to as embodiment 3) will be described below. FIG. 8 shows in detail a flow chart of the detection output processing performed by the arithmetic / processing circuit 25 in the third embodiment.

When the detection output is generated, the difference between the generation time T _n of the detection output generated last time and the generation time t _n of the detection output generated this time is calculated. If the calculated value T is 3 seconds or more, The detection output at the generation time t _n is determined as the detection signal, and the detection signal is transmitted. At the time when the number of the detected signals notified is three, the timer 22 is driven for two minutes, and the transmission / inhibition processing is performed from the arithmetic / processing circuit 25 to the transmission circuit 26. The transmission is prohibited for 2 minutes. Therefore, when the detection output shown in FIG. 5A is processed by the configuration of the second embodiment, the detection signal in the transmission form shown in the time chart of FIG. 5D is transmitted. Here, in the detection output shown in FIG. 5A, the detection output 2 is generated from the detection output 1 with an interval of 2 minutes or more, and is transmitted as a detection signal. After that, since the detection output 3 and the detection output 4 are generated in a state where the interval is less than 3 seconds, they are not transmitted as detection signals, and the detection output 5 has an interval of 3 seconds or more. It is transmitted as a signal. Further, since the detection output 6 is generated in a state where the interval with the detection output 5 is less than 3 seconds, it is not transmitted as a detection signal, and the detection output 7 has an interval of 3 seconds or more. Is also transmitted as a detection signal. As a result of the above transmission, the number of transmissions becomes three, and at this point, transmission is prohibited for 2 minutes. Under this transmission prohibit mode, the detection outputs 8 ... 10 generated during this period are generated at intervals of 3 seconds or more, but are not transmitted. After the transmission prohibition mode for 2 minutes is released, the detection outputs 11, 12 and 14 generated at intervals of 3 seconds or more are transmitted as detection signals as in the above. After this, the same processing as above is performed.

Next, an embodiment corresponding to the present invention 4 (hereinafter, referred to as embodiment 4) will be described. FIG. 9 shows a detailed flowchart of the detection output process in the fourth embodiment.

In the arithmetic / processing circuit 25 of the fourth embodiment, the processing contents are the same until the transmission prohibition of 2 minutes is performed at the time when the number of transmission times becomes three, as in the third embodiment. The feature is that the transmission prohibition time is extended with the generation of the detection output generated during the transmission prohibition. In other words, in the fourth embodiment, when the detection output generated during this period is generated, the timer 22 is reset and the start command is re-supplied at each generation time, so that the detection signal is output for the time set in the timer 22. It is configured to perform transmission prohibition processing that prohibits the transmission of.

Therefore, for example, when the detection output shown in FIG. 5A is processed by the configuration of the fourth embodiment, the detection signal of the transmission form shown in the time chart of FIG. 5E is transmitted. To be done. Here, the detection outputs 8, 9, 10, 11 generated during the transmission prohibition for 2 minutes are prohibited for transmission for 2 minutes respectively from the time of occurrence. In this case, in the transmission prohibition mode, the transmission prohibition time is updated one after another and the delay process is performed. Then, when the transmission prohibition mode by the detection output 11 is released, the detection output 12 is transmitted as a detection signal and the detection output 14 is transmitted as a detection signal at intervals of 3 seconds.

Next, an embodiment corresponding to the present invention 5 (hereinafter referred to as embodiment 5) will be described. FIG. 10 is a detailed flowchart of the detection output process in the fourth embodiment.

In the third and fourth embodiments described above, in the arithmetic / processing circuit 25, if the interval between the detection outputs is not more than 3 seconds, it is not discriminated as a detection signal, and therefore the occurrence interval of less than 3 seconds. In contrast to the configuration in which the detection output of No. 2 is not output, the fifth embodiment is characterized in that the generation interval of less than 3 seconds is converted into 3 seconds and transmission is possible. Therefore, when the detection output shown in FIG. 5A is processed by the configuration of the fifth embodiment, the detection signal of the transmission form shown in the time chart of FIG. 5F is transmitted. Here, the detection output 3 and the detection output 4 that occur subsequent to the detection output 2 occur at intervals of less than 3 seconds, but by converting each occurrence interval to 3 seconds, Judgment is made and output becomes possible. Further, when the detection output 4 is transmitted, the number of times of transmission becomes 3, and at this time, the transmission is prohibited for 2 minutes. The delay process during the prohibition of transmission is performed in the same manner as in the third embodiment.

Further, an embodiment (hereinafter referred to as Embodiment 6) corresponding to the present invention 6 will be described. FIG. 11 is a detailed flowchart of the detection output process in the sixth embodiment.

In the fifth embodiment, the detection output having an interval of less than 3 seconds is processed to validate it as a detection signal. However, the sixth embodiment has an interval of less than 3 seconds. The detection output is counted and output as a signal form in which the detection output number information is added to the detection signal transmitted immediately after, as the number of untransmitted detection outputs generated between the detection signals. In the sixth embodiment, the transmission prohibit mode is set when the number of detected outputs reaches 3. It should be noted that the detection output generated during the transmission prohibition mode is delayed according to the fourth embodiment. Therefore, for example, when the detection output shown in FIG. 5A is processed by the configuration of the sixth embodiment, the detection signal of the transmission form shown in the time chart of FIG. 5G is transmitted. Here, the detection outputs 3 and 4 having an interval of less than 3 seconds are generated between the detection output 2 and the detection output 5 transmitted next, and the number of untransmitted detection outputs is the counter 23. And the count information C is stored in the memory 24. Then, when the detection output 5 is transmitted as a detection signal, the count information C is transmitted as a detection signal in the form of a signal given to the detection output 5. That is, two detection outputs are generated up to the detection output 5, and the detection signal (3) having a form indicating that the detection output 5 is the third detection output 5 is transmitted. In the description of this embodiment, the number of untransmitted detection outputs is shown in parentheses, and the number in parentheses indicates the detection including this detection signal generated between the immediately preceding detection signal and the output of this detection signal. It shall indicate the number of outputs.

At the time when the detection signal (3) is transmitted, the number of detection outputs exceeds three times, and as a result, the transmission prohibit mode for 2 minutes is set. Therefore, the detection outputs 7, 8, 9, 10, and 11 are sequentially delayed, and the detection output 12 is output as the detection signal (0) after releasing the transmission prohibition mode, and during the subsequent 3 seconds. , The detection output 13 whose interval with the detection output 12 is less than 3 seconds, and the detection output 14 whose interval with the detection output 12 is 3 seconds are output, and the detection signal (0) of the detection output 12 is transmitted. After a second, that is, when the detection output 13 whose transmission is prohibited is output, the detection output 14 is also output at the same time, and the signal in the form of the detection signal (2) is output.

Next, an embodiment corresponding to the present invention 7 (hereinafter referred to as embodiment 7) will be described. FIG. 12 is a detailed flowchart of the detection output process in the seventh embodiment.

Example 7 is the same as Example 6 except for the following points. That is, the transmission prohibit mode is different when the number of detected outputs is three in the sixth embodiment, but is when the number of detected signals is three in the sixth embodiment. are doing. Therefore, when the detection signals (3) and (1) are output at intervals of 3 seconds after the detection signal (0) is output, the transmission prohibit mode is set. After that, the detection outputs 7, 8, 9, 10, and 11 are sequentially delayed, and the detection output 12 is output as the detection signal (0) after the transmission prohibit mode is released, and the detection output 13 is output 3 seconds after that. Is output as the detection signal (2).

Although the infrared sensor is used as the sensor 21 in the hardware configuration of this embodiment, the sensor 21 is not limited to this, and may be another human body detection sensor such as a sensor using microwaves. Further, although the device of this embodiment has a configuration in which such a sensor for obtaining a detection output is incorporated, it is not always necessary to incorporate such a sensor in the device configuration, and a combination with a sensor as another unit is required. It goes without saying that it can be configured as well.

Furthermore, in the present embodiment, the time interval between the detection outputs to be transmitted is set to 3 seconds, but the time interval is not limited to this and can be set as appropriate according to the situation.

[0044]

[Effect of device]

 As described above, according to the first aspect of the present invention, the detection output is transmitted a plurality of times set in advance, and then the transmission is stopped for the set time. There is no inconvenience that transmission cannot be distinguished from false alarms, the distinction from false alarms can be made clear, and the occurrence of alarms can be reliably recognized. In addition, this notification is performed by processing the detected signal in near real time, which makes it more reliable. In addition, the battery consumption is suppressed while transmission is stopped, which is economical. In addition to the effect of the first aspect of the present invention, in addition to the effect of the first aspect of the present invention, when the detection output is generated while the transmission is stopped, the transmission stop time is reset when the detection output is generated, and the total transmission stop time is Be delayed. Therefore, it is possible to reduce the number of notifications and eliminate waste. In this way, a device having both reliability and economy can be realized.

In addition, the present inventions 3 to 7 have a configuration corresponding to the legal regulation of wireless transmission, that is, a configuration in which a detection output output at a predetermined interval is transmitted as a detection signal. Since the present invention 3 has a configuration in which the detection signal is transmitted for a plurality of times set in advance and then the transmission is stopped for a set time, it is possible to distinguish from a false alarm by a single transmission as in the past. It is possible to clarify the distinction from false alarms without causing the inconvenience of being unable to perform alarms and to reliably recognize the occurrence of alarms. It is economical because the battery is not consumed while the transmission is stopped. In this way, a device having both reliability and economy can be realized.

Further, in addition to the effect of the present invention 3, in the present invention 4, when the detection output occurs while the transmission is stopped, the transmission stop time is reset at the time of the detection output, and the whole device is Transmission stop time is delayed. Therefore, it is possible to suppress the issuance of an alarm, and there is no waste.

Furthermore, in addition to the effect of the present invention 4, the present invention 5 is configured such that even if the output between detection outputs is less than a predetermined time interval, it is converted into a transmittable detection signal. Therefore, it becomes possible to transmit the detection signal corresponding to the detection output, the processing close to the real time of the first invention can be performed, and the reliability can be improved.

Furthermore, in the present invention 6, since the number of untransmitted detection outputs is output and the process of stopping transmission is performed according to the number of detected outputs, it is possible to perform the process in real time, This is advantageous in that it is possible to minimize the occurrence of alarms, is economical, and recognizes the generated information of the detection output as in the case of the present invention 5. Then, in the present invention 7, the transmission stop processing is performed according to the number of times the detection signal is transmitted, and as in the case of the present invention 6, the number of untransmitted detection outputs is output. Although it is likely that the number of times the alarm is issued will increase, it is excellent in that it can reliably recognize the occurrence of an alarm. It is also economically superior to other devices.

[Brief description of drawings]

FIG. 1 is a basic block diagram of the present invention 1.

FIG. 2 is a basic block diagram of the present invention 2-4.

FIG. 3 is a basic block diagram of the present invention 5-6.

FIG. 4 is a hardware configuration diagram of an embodiment of the present invention

FIG. 5 is a time chart of detection signals according to an embodiment of the present invention.

FIG. 6 is a flowchart for explaining the first embodiment of the present invention.

FIG. 7 is a flowchart for explaining the second embodiment of the present invention.

FIG. 8 is a flowchart for explaining a third embodiment of the present invention.

FIG. 9 is a flowchart for explaining the fourth embodiment of the present invention.

FIG. 10 is a flow chart for explaining a fifth embodiment of the present invention.

FIG. 11 is a flow chart for explaining the sixth embodiment of the present invention.

FIG. 12 is a flow chart for explaining a seventh embodiment of the present invention.

FIG. 13 is a time chart for explaining a conventional example.

FIG. 14 is a schematic view of an alarm system to which an embodiment of the present invention and a conventional example are applied.

[Explanation of Codes] 1 ... Transmission prohibition processing means 2 ... Counting means 2a ... First counting means 2b ... Second counting means 3 ... Time counting means 4 ... ... Sending means 5 ... Receiving section 6 ... Detection output number storage means 7 ... Calculation / processing means

Continuation of front page (51) Int.Cl. ⁶ Identification number Office reference number FI Technical display location G08C 17/00 G08C 17/00 Z (72) Creator Keisuke Okao 4-7-5 Nonohama, Otsu City, Shiga Prefecture Inside Optex Co., Ltd. (72) Inventor Yayoi Aone 4-7-5 Onohama, Otsu City, Shiga Prefecture Inside Optex Co., Ltd.

Claims (7)

[Scope of utility model registration request] 1. A human body detection processing device comprising a transmission means for transmitting a detection output generated by detecting a human body as a detection signal to a predetermined receiving section, and a counting means for counting the number of times the detection signal is transmitted. , For the time keeping means for setting a set time by the generation of the start command and the transmitting means,
When the number of transmissions counted by the counting means reaches a preset number of times, a start command is supplied to the time measuring means, and transmission prohibition processing means for prohibiting the transmission of the detection signal for the set time of the time measuring means. A human body detection processing device for security, which is provided. 2. The transmission prohibition processing means, when a detection output is generated during the transmission prohibition, at each generation time point thereof.
The transmission prohibition process for prohibiting the transmission of the detection signal for a set time of the time measuring means is performed by re-supplying a start command in a state where the time measuring means is reset. The human body detection processing device for security described. 3. A time interval between a detection output generated by detecting a human body and a detection output transmitted immediately before that is calculated, and a detection output having a value equal to or larger than a predetermined time interval is calculated. Computation to determine the detection signal to be transmitted /
In a human body detection processing device comprising a processing means and a transmitting means for transmitting a detection signal to a predetermined receiving section wirelessly, a counting means for counting the number of times the detection signal is transmitted, and a set time is set by generation of a start command. The calculation / processing means sends a start command to the timing means when the number of transmissions counted by the counting means reaches a preset number of times. A human body detection processing device for security, characterized in that it is configured to perform a transmission prohibition process of supplying and prohibiting the transmission of a detection signal for a set time of the timekeeping means. 4. A time interval between a detection output generated by detecting a human body and a detection output transmitted immediately before is calculated, and a detection output having a calculated value equal to or greater than a predetermined time interval is generated. Computation to determine the detection signal to be transmitted /
In a human body detection processing device comprising a processing means and a transmitting means for transmitting a detection signal to a predetermined receiving section wirelessly, a counting means for counting the number of times the detection signal is transmitted, and a set time is set by generation of a start command. And a clocking means, and the arithmetic / processing means, with respect to the transmitting means,
When the number of transmissions counted by the counting means reaches a preset number of times, a start command is supplied to the time measuring means to prohibit the transmission of the detection signal for the set time of the time measuring means, and the transmission is prohibited. If a detection output occurs at the time of occurrence, a transmission prohibition process that prohibits the transmission of the detection signal for the set time of the timekeeping means by resupplying the start command with the timekeeping means reset at each occurrence time A human body detection processing device for security, which is configured to perform. 5. When the calculated value of the time interval between the detection output and the detection output transmitted immediately before is within a predetermined time interval, the calculation / processing means sets the calculated value in advance. The human body detection for security according to claim 4, wherein the detection output is corrected so that it becomes a predetermined time interval, and the detection output is discriminated as a detection signal to be transmitted. Processing equipment. 6. A time interval between a detection output generated by detecting a human body and a detection output transmitted immediately before is calculated, and a detection output having a calculated value equal to or greater than a predetermined time interval is generated. Computation to determine the detection signal to be transmitted /
In a human body detection processing device including a processing means and a transmitting means for transmitting a detection signal to a predetermined receiving section wirelessly, a first counting means for counting the number of detection outputs generated between the detection signals, and the first counting means. Detection output number storage means for storing the number of outputs between detection signals counted by one counting means; and second counting means for counting the number of detection outputs generated within a predetermined time,
The operation / processing means reads out the number of outputs between the detection signals and sets the data with the output number as the detection signal to be transmitted. , Second to the transmitting means
When the number of detection outputs counted by the counting means reaches a preset number of times, a start command is supplied to the time counting means to prohibit the transmission of the detection signal for the set time of the time counting means, and If a detection output occurs while transmission is prohibited, the start command is re-supplied to the timekeeping means at each time of occurrence, and in the reset state, the transmission of the detection signal is prohibited for the set time of the timekeeping means. A human body detection processing device for security, which is configured to perform processing. 7. The second counting means counts the transmitted detection signals and supplies a start command to the time counting means when the detection signals have been preset a plurality of times. The human body detection processing device for security according to claim 5.