JPH0525212B2 - - Google Patents

Description

[Detailed Description of the Invention] [Technical Field] The present invention provides a method for simultaneously connecting general detectors such as fire detectors and smoke detectors and a line repeater that transmits signals using pulse code signals to one line. This relates to an information transmission system that enables

[Background technology]

FIG. 1 is a block diagram showing a schematic configuration of a conventional information transmission system. In the figure, reference numeral 1 denotes a central monitoring and control device, to which a plurality of main line repeaters 3 are connected via a main line 2 . A line 4 branching from the main line 2 is connected to each main line repeater 3, and a line repeater 5, a general sensor 6, etc. are connected to each line 4. The line repeater 5 has a function of transmitting the contact signal status of the monitored device 7 back to the central monitoring and control device 1 using a transmission signal based on a pulse code signal, and a transmission signal using a pulse code signal transmitted from the central monitoring and control device 1. It has a function of controlling the controlled device 8 by generating a non-voltage contact output according to the control information included in the control information. In addition, the general detector 6 transmits a level signal such as a current level or a voltage level to the main line repeater 3 by short-circuiting the line 4 through an appropriate resistance when a fire detection operation or a smoke detection operation is performed. It is something. Second
The figure shows an example of a signal on the line 4 that is input to the trunk repeater 3, in which a level signal from the general sensor 6 is superimposed with a transmission signal based on a pulse code signal from the line repeater 5. It is. The information represented by the level signal and the information represented by the transmission signal are each converted into a transmission signal consisting of a pulse code signal at the trunk repeater 3 and transmitted to the central supervisory control device 1 via the trunk 2. It is becoming more and more like this.

However, in such a conventional example, the line repeater 5 and the general sensor 6 connected to the same line 4 are applied with the same line voltage, are supplied with the operating power supply voltage from the line 4, and are constantly supplied with line current. There is a problem that the line current increases as the scale of the system increases.In particular, when the general sensor 6 performs sensing operation, the current flowing through the line 4 increases. If we try to enable battery backup in
Furthermore, when the pulse code signal from the line repeater 5 is sent as a current signal to the main line repeater 3, there is a drawback that it becomes difficult for the main line repeater 3 to detect the pulse code signal from the line repeater 5. It was hot.

[Purpose of the invention]

The present invention has been made in view of the above-mentioned points, and the line current does not increase significantly even when a general sensor operates, and battery backup in the event of a power outage is easy. It is an object of the present invention to provide an information transmission system that allows information transmission by a line repeater even after the operation of a general sensor.

[Disclosure of the invention]

The configuration of the present invention will be described below with reference to the illustrated embodiment. As shown in FIGS. 3 to 6, operating power is supplied from a line 4, and when an abnormality is detected, the line 4 is short-circuited via a current-limiting element Z as appropriate. A general sensor 6 having a self-holding switching element S such as a thyristor, a line repeater 5 which is supplied with operating power from the line 4 and transmits information using a pulse signal superimposed on the line 4, and a line current It has a general sensor monitoring section 9 that detects the sensing operation of the general sensor 6 due to an increase in The trunk repeater 3 is connected to the same two-wire line 4.
In the information transmission system in which the main line repeater 3 is connected _via A line voltage switching section 10 is provided for switching the line voltage V so as to apply a second line voltage V _L , which is lower than the second line voltage V L, to the line 4.
A Zener diode ZD is provided as a voltage detecting means for switching the impedance of the current limiting element Z so that a holding current that maintains conduction of the switching element S flows when the second line voltage V _L is input. In this embodiment, the current limiting element Z of the switching element S is a Zener diode ZD.
A resistor _R2 is connected in series in a parallel circuit with a resistor _R1 . The Zener voltage of the Zener diode ZD is lower than the first line voltage V _H and higher than the second line voltage V _L. Therefore, when the line voltage A is the higher line voltage _VH , the Zener diode ZD is conductive and the impedance of the current limiting element Z is low. Therefore, when the general sensor 6 performs a fire detection operation or a smoke detection operation and the self-holding switching element S, such as a thyristor, is triggered, the switching element S is easily turned on. Then, the trunk repeater 3 detects the detection operation of the general sensor 6 due to the increase in line current, and the line voltage V
When switching to the lower line voltage V _L ,
Since the Zener diode ZD becomes non-conductive, the impedance of the current limiting element Z becomes high. Therefore, the current flowing through the switching element S of the general sensor 6 becomes small, but this current is about the same as the holding current for keeping the switching element S in the on state. Therefore, in the case of the present invention, even if the general sensor 6 operates, the line current does not increase suddenly, and the current consumption can be kept low, making it easy to back up the battery in the event of a power outage. In addition, since the line current does not increase rapidly, it will not be difficult for the main line repeater 3 to detect the pulse code signal sent as a current signal from the line repeater 5. . The line voltage switching unit 10 in the main line repeater 3 has the function of switching the line voltage V to the lower line voltage V _L during the sensing operation of the general sensor 6 as described above, but in particular this embodiment In this case, even in the normal monitoring state where the general sensor 6 is not yet in the sensing operation, the first line voltage V _H and the second line voltage V _L are divided in a time-sharing manner as shown in FIG. It has a function to switch to.
When the lower line voltage V _L is applied to the line, the main line repeater 5 transmits information to and from the line repeater 5 using pulse code signals, and when the higher line voltage V _H is applied to the line, When the voltage is applied to the line 4, no information is transmitted to or from the line repeater 5. Further, the line repeater 5 is provided with a high impedance control section 11 that stops the information transmission operation and makes the line repeater 5 high impedance with respect to the line 4 when a higher line voltage _VH is detected. An intelligence sensing section 12 is connected to the line repeater 5. The intelligence sensing unit 12 is a line repeater 5
The detection level of the sensor is transmitted to the line 4 via the line repeater 5, and the operation of the sensor is checked based on check information input from the line 4 via the line repeater 5. The trunk repeater 3 is provided with a trunk interface section 13. Detection information from the general sensor 6 detected by the general sensor monitoring unit 9, monitoring control information transmitted and received with the line repeater 5 using pulse code signals, etc. are sent to the main line interface unit 13. The pulse code signal is then sent to the central supervisory control device 1 via the main line 2 as a transmission signal consisting of a pulse code signal. The transmission and reception of signals on the main line 2 connecting this main line repeater 3 and the central supervisory control device 1 is carried out using only a transmission signal consisting of a pulse code signal, without using a level signal as in the case of the line 4. . Reference numeral 14 denotes a line repeater reply detection unit, which detects a return signal consisting of a pulse code signal sent back as a current signal from the line repeater 5 via the line 4 and inputs it to the data processing unit 15. Reference numeral 16 denotes a signal superimposing section which, under the control of the data processing section 15, superimposes and transmits a transmission signal consisting of a pulse code signal onto the line 4. On the other hand, the line repeater 5 is provided with a voltage detection section 17, and the line voltage V on the line 4 is
is the higher line voltage V _H shown in Figure 4, or
Alternatively, it is detected whether the line voltage V _L is the lower one shown in the figure. However, if the line voltage V is detected to be the lower line voltage V _L , the transmission processing unit 18 uses the detection output of the voltage detection unit 17 to
becomes operational, and information is transmitted to and from the trunk repeater 3 using a transmission signal consisting of a pulse code signal superimposed on the line 4. On the other hand, if the line voltage is detected to be the higher line voltage _VH , the high impedance control section 11 operates as described above to control the transmission processing section 1.
In addition to stopping the information transmission operation in step 8,
The line repeater 5 is made to have a high impedance with respect to the line 4 to reduce line current. As a means for making the line repeater 5 high impedance with respect to the line 4, for example, a switching element is inserted in series at the input stage of the transmission processing section 18,
A means for turning off this switching element by the output of the high impedance control section 11 can be used. In this way, as shown in the period Ta in FIG. 4, the higher line voltage V _H is applied to line 4.
Since the line repeater 5 does not consume line current during the period in which is applied, the current consumption is reduced. In other words, during this period, the line repeater 5
Since the transmission processing section 18 is stopped, it does not receive power supply from the line 4, so the current consumption during this period is reduced. On the other hand, as shown in period Tb in FIG. 4, during the period when the lower line voltage V _L of line 4 is applied,
Since the transmission processing unit 18 in the line repeater 5 is performing an information transmission operation and receiving power from the line 4, the current consumption during this period is not reduced. In this embodiment, the line voltage V _L during the period Tb in which the line repeater 5 operates is:
Although the line voltage V H is lower than the line voltage V _H during the period Ta in which the line repeater 5 does not operate, the general sensor 6 has a voltage time constant that is sufficient to prevent the power supply voltage from dropping to the inoperable voltage even during this period. [Effects of the Invention] The present invention has the above-described structure, and the present invention is constructed as described above. In the information transmission system, a general sensor with a self-holding switching element and a line repeater are connected simultaneously to one line to transmit information between the new device and the main device. A line voltage switching section is provided that switches the line voltage so that a second line voltage lower than the first line voltage applied during the monitoring operation of the general sensor is applied to the line during the detection operation of the general sensor section. , the general sensor is equipped with a voltage detection means that switches the impedance of the source element so that a holding current flows to the extent that conduction is maintained in the switching element when the second line voltage is input. detects the detection operation of the general sensor due to an increase in line current and switches the line voltage to a lower line voltage, the current flowing through the self-holding switching element in the general sensor maintains the on state. Since the holding current is about the same as the holding current of the sensor, the line current does not increase rapidly even when a general sensor operates, and the current consumption can be kept low. By using this method, it is possible to reduce the capacity of the backup power supply installed on the main unit side to perform backup in the event of a power outage, and since the line current does not increase suddenly, the line repeater Even when the pulse code signal is sent as a current signal to the main line repeater, there is no difficulty in detecting the pulse code signal from the line repeater at the main line repeater.

[Brief explanation of drawings]

FIG. 1 is a block diagram of the conventional example, FIG. 2 is an explanatory diagram of the same operation as above, FIG. 3 is a block diagram showing the overall configuration of an embodiment of the present invention, FIG. 4 is an explanatory diagram of the same as above, and FIG. The figure is a block diagram showing the main structure of the same as above.
FIG. 6 is a circuit diagram of a main part of a general sensor used in the above. 3 is a trunk repeater, 4 is a line, 5 is a line repeater,
6 is a general sensor, 9 is a general sensor monitoring section, 10 is a line voltage switching section, S is a switching element, Z is a current limiting element, and ZD is a Zener diode.

Claims (1)

[Claims] 1 A general sensor that is supplied with operating power from the line and has a self-holding switching element such as a thyristor that short-circuits the line via a current limiting element when an abnormality is detected; It has a line repeater that transmits information using a pulse signal superimposed on the line, and a general sensor monitoring unit that detects the sensing operation of a general sensor due to an increase in line current, and uses a pulse signal superimposed on the line. In an information transmission system in which a parent device that transmits information to and from a line repeater is connected via the same two-wire line, the parent device has a A line voltage switching unit is provided for switching the line voltage so as to apply a second line voltage lower than the first line voltage applied to the line during the monitoring operation of the general sensor. 1. An information transmission system comprising voltage detection means for switching the impedance of a current-limiting element so that a holding current flows to the extent that continuity of the switching element is maintained when a line voltage is input.