JPH0290296A - Remote monitor and control system with disaster preventing/burglar alarm sensor - Google Patents

Abstract

PURPOSE:To reduce the number of parts control points by switching the functions of various disaster preventing/burglar alarming sensors in accordance with the contents stored in a storage part connected to a signal processing part. CONSTITUTION:The disaster preventing/burglar alarming sensor 10 is provided with the storage part 14 for storing data relating to the function of the sensor 10 and a signal processing part 12 to be driven by switching the function of the sensor 10 based on the data stored in the storage part 14. Since the functions of respective sensors 10 are switched in accordance with the contents stored in the storage part 14 connected to the signal processing parts 12, the functions can be switched only by rewriting data in the storage parts 14. Consequently, the specifications of the sensors 10 can be collected as one specification and the number of parts control points can be reduced.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention provides data transmission by time division multiplexing between a central control unit and a plurality of terminals connected via signal lines. The present invention relates to a remote monitoring and control system equipped with a disaster prevention/crime prevention sensor that is capable of detecting the operation of the disaster prevention/crime prevention sensor connected to a terminal at a location remote from the disaster prevention/crime prevention sensor.

[Prior Art] As shown in FIG. 3, a remote monitoring and control system equipped with this type of disaster prevention/crime prevention sensor includes a central control bag W31, a plurality of monitoring terminals 32 to which unique addresses are set, A control terminal 33, a wireless relay terminal 34, an external interface terminal 35, and a pattern setting terminal 36 are connected via a pair of signal lines 37, and the monitoring terminal 32 has a monitoring input terminal. A switch S+''-S4 such as a wall switch and a disaster prevention/crime prevention sensor 10 are connected as a switch.The disaster prevention/crime prevention sensor 10 includes fire detection,
There are sensors for smoke detection, gas leak detection, intruder detection, etc.

As shown in FIG. 4(a), the transmission signal Vs sent from the central control device 31 to the signal line 37 includes a start pulse signal ST indicating the start of signal transmission, a mode data signal MD indicating the signal mode, and each terminal device. an address data signal AD that transmits 8-bit address data calling 32 to 36;
A bipolar signal (±24V) consisting of a control data signal CD that transmits control data for controlling loads L1 to L4, a checksum data signal C8, and a return standby signal WT that sets a return period from each terminal device 32 to 36. It is a division multiplexed signal, and data is transmitted by pulse width modulation. In each terminal device 32 to 36, when the address data of the transmission signal Vs received via the signal line 37 and the set address data match, the control data of the transmission signal Vs is taken in, and the transmission signal Vs is returned. In synchronization with the standby signal WT, the monitoring data signal is converted into a current mode signal (
The signal wires 37 are short-circuited via an appropriate low impedance, and the signal is sent back as a signal sent out.

Further, the central control device 31 includes a dummy signal transmitting means that always sends out a dummy transmission signal with the mode data signal MD in a dummy mode, a monitoring terminal 32, a wireless relay terminal 34, an external interface terminal 35, FIG. 4 (
When an interrupt signal Vi as shown in b) is received,
Interrupt processing means is provided for detecting the terminal device 32-36 that has generated an interrupt, accessing the terminal device 32-36, and causing the monitored data to be sent back.

The central control device 31 also has the monitoring terminal 32 or the wireless relay terminal 34, the external interface terminal 35, and the pattern setting terminal 36 as described above.
A control terminal device 33 that controls the corresponding loads L1 to L4 based on the monitoring data sent back to the central control device 31 from
At the same time, the control data is time-division multiplexed to the control terminal 33 via the signal line 37 to control the loads L1 to L.

The wireless relay terminal 34 is an optical wireless transmitter Y
, optical wireless receiver X and wireless system signal line 38
It is a terminal device that relays data in an optical wireless system consisting of: an optical wireless receiver X receives an optical signal transmitted from an optical wireless transmitter Y, and receives the received data via a wireless system signal l138 At the same time, this data is transferred to the central control device 31. Further, the external interface terminal device 35 is a terminal device that performs data transmission with the external control device 39,
The pattern setting terminal device 36 is a terminal device that transfers pattern control data input from the data input section 40 to the central control device 31. The monitoring terminal 32 and the control terminal 33 installed in the distribution board 41 or the relay control panel 41a are set to the dimensions agreed upon by the distribution board, and their control output enables the remote control for load control. A relay (a latching relay that can be turned on and off by a hand switch) 42 is controlled.

[Problems to be Solved by the Invention] Incidentally, in the above-mentioned conventional configuration, since some of the disaster prevention/crime prevention sensors 10 are equipped with various detection functions, the internal processing of the disaster prevention/crime prevention sensor 10 is changed depending on each detection function. need to be set. In addition, in order to adjust sensitivity variations, a semi-fixed resistor V for adjustment during manufacturing is used, as shown in Figure 5.
It is equipped with a semi-fixed resistor VR2 for on-site adjustment of the variable capacitor VC1 and variable capacitor VC1, and has moving parts, which poses problems of poor reliability and high cost. Furthermore, disaster prevention and
To perform an alarm test after installing a security sensor, conventionally it is necessary to operate the test switch installed on the disaster prevention/security sensor, and the test switch is installed at a high place such as the ceiling. A long stick was required to operate it.

The purpose of the present invention is to solve the above-mentioned problems, and the present invention allows functions to be switched to match each detection function, and also to switch functions using data stored in a storage unit. This makes it easy to change functions, increases the number of parts that can be shared, and also allows the detection sensitivity to be adjusted using data stored in the memory, eliminating the need for external moving parts. The aim is to provide a remote monitoring and control system equipped with disaster prevention and crime prevention sensors.

[Means for Solving the Problems] In order to achieve the above-mentioned object, the present invention provides a storage unit that can store and hold data related to the functions of a disaster prevention/crime prevention sensor without power supply, and a storage unit based on the data stored in the storage unit. The disaster prevention/crime prevention sensor is equipped with a signal processing section that operates by switching the functions of the disaster prevention/crime prevention sensor.

In addition, the disaster prevention/crime prevention sensor is provided with a receiving section that receives a wireless signal containing data to be written in the storage section and a transmitting section that transmits the wireless signal containing the data stored in the storage section. It is desirable to provide a remote control device separate from the disaster prevention/crime prevention sensor, which creates and transmits a wireless signal for the terminal, and also receives and displays the wireless signal transmitted from the transmitter of the terminal device.

Furthermore, the remote control device may be configured to be able to send a wireless signal for testing the alarm of the disaster prevention/crime prevention sensor.

[Function] According to the above configuration, the functions of various disaster prevention/crime prevention sensors can be switched depending on the memory contents of the storage unit connected to the signal processing unit. By simply rewriting the data, functions can be switched and used. Disaster prevention and crime prevention sensor specifications, which were previously configured individually for each function, can be combined into one, reducing the number of parts to be managed. It can be done. Furthermore, since the detection sensitivity can be set using the data in the storage section, there is no need for moving parts, which reduces costs and improves reliability.

Furthermore, if the contents of the storage section can be changed or confirmed by wireless signals between the remote control device provided separately from the disaster prevention/crime prevention sensor, changing the function becomes even easier.

Furthermore, if the remote control device is used to perform the alarm test of the disaster prevention/crime prevention sensor, the alarm test will become easier.

[Embodiment] As shown in FIG. 1, the disaster prevention/crime prevention sensor 10
A sensing unit 11 that detects smoke, gas leaks, intruders, etc. (any one or a combination may be used), and a sensing unit 11 that receives analog input from the sensing unit 11 and determines whether or not an abnormality has occurred. A signal processing section 12 that performs processing, an alarm section 13 that outputs an alarm signal to the monitoring terminal 32 when the signal processing section 12 detects the occurrence of an abnormality, and processing contents in the signal processing section 12. A light receiving section 1 serves as a receiving section for transmitting and receiving infrared wireless signals to and from a remote control device 20, which will be described later.
5 and a light emitting section 16 as a transmitting section. The signal processing section 12 is composed of a microcomputer, and has built-in programs related to various processes. This process is
Switching is possible using data in an externally provided storage unit 14. The storage unit 14 uses E"FROM as a nonvolatile storage device that can hold data without power supply. This storage unit 14 stores various setting values, etc., and also stores processing performed by the signal processing unit 12. It has a function as a kind of memory switch for switching.The functions that can be set will be described later.

On the other hand, the remote control device 20 includes a light emitting section 21 and a light receiving section 22 for transmitting and receiving wireless signals to and from the disaster prevention/crime prevention sensor 10 . It is processed and created by the signal processing unit 25. Further, the wireless signal received by the light receiving section 22 is processed by the signal processing section 25 and displayed on the display section 24.

The wireless signal has a setting mode, a confirmation mode, and an alarm test mode. In the setting mode, the settings in the storage unit 14 can be changed to the settings set on the operation unit 23, and in the confirmation mode, the settings in the storage unit 14 can be changed. It can be displayed on the display unit 24, and furthermore, in the alarm test mode, the disaster prevention/crime prevention sensor 10 performs a self-diagnosis and performs an alarm test.

The basic operation of the disaster prevention/crime prevention sensor 10 will be explained using FIG. 2. First, when the power is turned on, the data in the storage unit 14 is read out and the functions of the disaster prevention/crime prevention sensor 10 are set.
Next, the input from the sensing unit 11 is monitored according to the set function, and it is detected whether a wireless signal is received during that time. When a wireless signal is received, depending on the mode, if it is a setting mode, data is written into the storage section 14, and then the data from the storage section 14 is read out and sent back to the remote control device 20 as a wireless signal.

Further, when the wireless signal from the remote control device 20 is in the confirmation mode, the terminal device 10 reads data from the storage unit 14 and sends it back to the remote control device 20 as a wireless signal. In setting mode or confirmation mode,
When the remote control device 20 receives the wireless signal, it displays the data so that the user can confirm it. Further, when the wireless signal from the remote control device 20 is in the alarm test mode, the disaster prevention/crime prevention sensor 10 performs a self-diagnosis, and the alarm unit 13 sends out an alarm signal.

As described above, the storage unit 14 by the remote control device 20
It is possible to set and confirm the memory contents and perform self-diagnosis and alarm tests. In this way, self-diagnosis and alarm tests during maintenance can be activated from a distance from the disaster prevention/crime prevention sensor 10, eliminating the tedious work of attaching a jig to the end of a long rod as in the past. It becomes unnecessary.

By the way, the setting values as data stored in the storage unit 14 include correction values for adjusting variations in detection sensitivity due to variations in component precision during manufacturing and adjustment values for adjusting detection sensitivity in the field. There is. That is,
In place of semi-fixed resistors and variable capacitors that are conventionally required for adjusting detection sensitivity during manufacturing, an appropriate correction value is stored in the storage unit 14, and the signal processing unit 12 performs calculations using this correction value, thereby adjusting the detection sensitivity. Let's make adjustments. As a result, no moving parts are required, improving reliability and reducing costs. Also, since it can be adjusted electrically rather than mechanically,
This eliminates the need for mechanical operations using robots, and allows automatic adjustments to be made easily by simply changing set values using electrical signals.

On the other hand, in the sensitivity adjustment work at the site, it is sufficient to write the set value into the storage section 14 in the same way as during manufacturing, but since the setting value can be written to the storage section 14 using a wireless signal,
There is no need to climb up a stepladder as in the conventional case to adjust the disaster prevention/crime prevention sensor 10 installed in a high place such as the ceiling, and the sensitivity can be easily adjusted.

Furthermore, if a sensing unit 11 such as smoke detection is provided, in order to reduce false alarms and missed alarms, the detection level is determined and the time for which the detection level exceeds a predetermined value (data accumulation time) is determined. Current smoke detectors determine the data accumulation time on the receiver side, but
In the case of the present invention, the data accumulation time can be set in the storage section 14, and the signal processing section 12 can be caused to determine the data accumulation time corresponding to the sensing section 11.

In addition, different types of sensing units 11 may be used depending on the detection target.
However, if the sensing section 11 is different, the processing of the input signal will be different.

Therefore, the type of sensing unit 11 is set in the storage unit 14, and the processing in the signal processing unit 12 is selected according to the set type. Thereby, the same signal processing section 12 can be applied to various types of sensing sections 11, and components can be shared.

In the embodiment L, a disaster prevention and
Although the security sensor 10 is shown, it is also possible to use a disaster prevention/crime prevention sensor that is directly connected to the signal line 37 and has a built-in monitoring terminal function. This is a so-called point address sensor, and the location of the alarm can be limited by this address.

Such address setting is normally performed using a dip switch, but setting and changing the address requires climbing on a stepladder. Therefore, in the configuration of the present invention, the address is stored in the storage unit If a setting area is provided and the signal processing unit 12 is provided with a process for successive addresses, it is possible to set and confirm addresses from a distance using the remote controller 20 without using a stepladder or the like.

Note that in the above embodiment, infrared rays are used as the wireless signal, but ultrasonic waves or radio waves may also be used as the wireless signal. Further, the data in the storage unit 14 may be written by another writing device without using a wireless signal.

[Effects of the Invention] As described above, the present invention includes a storage section that can store and hold data related to the functions of a disaster prevention/crime prevention sensor without power supply, and a storage section that can store and hold data regarding the functions of a disaster prevention/crime prevention sensor based on the data stored in the storage section. The disaster prevention/crime prevention sensor is equipped with a signal processing section that operates by switching, and the functions of various disaster prevention/crime prevention sensors can be switched depending on the memory contents of the storage section connected to the signal processing section. By simply replacing the sensing section and rewriting the data in the memory section of the disaster prevention/crime prevention sensor, functions can be switched and used. This has the advantage that the number of parts to be managed can be reduced. Furthermore, since the detection sensitivity can be set using the data in the storage section, there is no need for moving parts, which reduces costs and improves reliability.

In addition, the disaster prevention/crime prevention sensor is provided with a receiving section that receives a wireless signal containing data to be written in the storage section and a transmitting section that transmits the wireless signal containing the data stored in the storage section. If a remote control device is installed separately from the disaster prevention/crime prevention sensor, which creates and sends a wireless signal to Functions can be easily changed without using a stepladder or the like.

Furthermore, if the remote control device is made to be able to send wireless signals for testing disaster prevention and crime prevention sensors,
The alarm test can be easily performed without using a long stick or the like.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing an embodiment of the present invention, FIG. 2 is an explanatory diagram of the same operation as above, FIG. 3 is a schematic configuration diagram of a remote monitoring and control system equipped with a disaster prevention/crime prevention sensor according to the present invention, and FIG. The figure is an operation explanatory diagram showing the format of the transmission signal same as above, and FIG. 5 is a block diagram showing a conventional example. 10...Disaster prevention/crime prevention sensor, 12...Signal processing unit,
14... Storage section, 15... Light receiving section, 16... Light emitting section, 20... Remote control device, 21... Light emitting section, 22
...Light receiving section, 23...Operation section, 24...Display section,
25... Signal processing section, 31... Central control device, 32
...Monitoring terminal, 33...Control terminal, L1~
L4...Load. Agent Patent Attorney Ishi 1) Chief Figure 7 2

Claims (3)

[Claims] (1) Multiple terminal devices, each with a unique address, are connected to the central control device via a pair of signal lines, and transmission signals sent from the central control device are used to connect the central control device and each terminal device. Data is time-division multiplexed and transmitted, and the transmission signal includes address data for accessing the terminal, control data for controlling the load connected to the terminal, and monitoring data from disaster prevention and crime prevention sensors connected to the terminal. In a remote monitoring and control system equipped with a disaster prevention/crime prevention sensor that includes a return standby signal that sets a return period, each disaster prevention/crime prevention sensor has a storage unit that can store data related to the functions of the disaster prevention/crime prevention sensor without power supply. 1. A remote monitoring and control system equipped with a disaster prevention/crime prevention sensor, comprising: and a signal processing unit that operates by switching the function of the disaster prevention/crime prevention sensor based on data stored in the storage unit. (2) The disaster prevention/crime prevention sensor includes a receiving section that receives a wireless signal containing data to be written in the storage section, and a transmitting section that transmits the wireless signal containing the data stored in the storage section, A remote control device that creates and sends a wireless signal to the terminal device, and receives and displays the wireless signal sent from the transmitter of the terminal device is provided separately from the disaster prevention/crime prevention sensor. A remote monitoring and control system comprising the disaster prevention/crime prevention sensor according to claim 1. (3) The remote monitoring and control system equipped with a disaster prevention/crime prevention sensor according to claim 2, wherein the remote control device is capable of transmitting a wireless signal for testing the alarm of the disaster prevention/crime prevention sensor.