JPH0535983A - Device for testing disconnection detecting function in fire alarm equipment - Google Patents

Abstract

PURPOSE:To detect a fire signal in the case of testing a line disconnection detecting function depending on the receiver, etc., of a fire alarming facility and further to prevent a fire sensor from being destroyed even when the fire sensor is activated while testing the disconnection detecting function. CONSTITUTION:A reception resistor Rr is connected in series to a fire sensor SE, and the disconnection detecting function is provided on the fire alarming facility so as to discriminate whether a line is disconnected or not by comparing a reception signal detected by the reception resistor Rr with a reference voltage. A constant current circuit FET 11 to make a current flow with a value smaller than the operating current of the fire sensor SE is provided on the reception resistor Rr in parallel and a switching element SW1 is provided on the constant current circuit FET 11 in series.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a test device for testing the function of a receiver such as a receiver for detecting a disconnection of a line in a fire alarm system.

[0002]

2. Description of the Related Art A receiver detects that a disconnection has occurred in each line connected to a fire receiver. Conventionally, as a device for testing whether or not this disconnection detection function is normal, The following devices are known.

That is, a fire resistance connected to each line is connected in series with a reception resistance, and a disconnection detection comparator for comparing a reception signal detected by this reception resistance with a reference voltage for detection of disconnection is provided. , A test switch for disconnecting the common line of the above line from the fire receiver is provided.
When the comparator detects that the voltage across the receiving resistor has become lower than the reference voltage when the switch is turned off, it recognizes that the disconnection detection function of the fire receiver is normal. In addition, instead of the switch for disconnecting the common line of the line from the fire receiver, there is also one provided with a switch for disconnecting each signal line of the line from the fire receiver, and in this case, the same operation as above is performed.

However, in the above-mentioned conventional example, there is an adverse effect that the fire signal cannot be detected because the line is disconnected when the disconnection detection function is being tested. In order to eliminate this adverse effect. The same applicant has proposed the circuit shown in FIG. In the configuration of FIG. 4, instead of providing the switch ,. Resistor R having a relatively low resistance value
A series circuit of 0 and the switch SW is connected in parallel with the receiving resistor Rr. Then, when the switch SW is turned on, if the disconnection detection comparator C1 detects that the voltage across the receiving resistor Rr becomes lower than the reference voltage Vref,
Recognize that the disconnection detection function of the receiver RE is normal. The resistors R1 and R2 are resistors that generate the reference voltage Vref, and in addition to this, a terminating resistor Rt and a fire detector SE are provided.

[0005]

However, in the conventional example shown in FIG. 4, when the switch SW is turned on, the voltage across the receiving resistor Rr is lowered to a certain extent below the reference voltage Vref. The value is set to a relatively small value. Therefore, when the switch SW is turned on, a large current flows through the fire detector SE, and particularly when the fire detector SE operates while the switch SW is turned on, a very large current flows through the fire detector SE. The current value may exceed the maximum rated current of the fire sensor SE, in which case the fire sensor SE may be destroyed.

For example, assuming that the maximum rated current of the fire detector SE is 100 mA, the resistance value of the receiving resistor Rr is 560 Ω, and the resistance value of the resistor R0 is 200 Ω, the fire detector is on when the switch SW is on. When the SE operates, 130 mA flows to the fire detector SE, which exceeds the maximum rated current of 100 mA.

According to the present invention, a fire signal can be detected when testing the disconnection detection function of a line by the receiver, and moreover, the fire detector operates while testing the disconnection detection function. Even so, it is an object of the present invention to provide a test device having a disconnection detection function in which the fire sensor is not destroyed.

[0008]

According to the present invention, a receiving resistor is connected in series with a fire detector, and a function of detecting a disconnection of a line is tested by comparing a received signal detected by the receiving resistor with a reference voltage. In the test device described above, a constant current circuit for flowing a current having a value smaller than the operating current of the fire detector is provided in parallel with the receiving resistor, and a switching element is provided in series with the constant current circuit.

[0009]

FIG. 1 is a circuit diagram showing an embodiment of the present invention. The same members as those shown in the conventional example are designated by the same reference numerals. Similarly, when the same reference numerals are given between the embodiments, they indicate that they are the same members.

A common line LC and a signal line L are connected to the fire receiver RE1, and a large number of fire detectors SE and one terminating resistor Rt are connected between the common line LC and the signal line L. Has been done.

The fire receiver RE1 is provided with a disconnection detecting comparator C1 and a fire discriminating comparator C2. The disconnection detection comparator C1 includes a resistor R
The reference voltage Vref for disconnection determination made by 1 and R2 is compared with the reception signal from the line (common line LC + signal line L), and when the switch SW1 described later is turned on, the reception resistance Rr If the both-end voltage is lower than the reference voltage Vref, the disconnection detection comparator C1 outputs "L" indicating the disconnection state, and the disconnection indicator lamp and the buzzer (not shown) are operated, and at this time, the line by the fire receiver RE1 is activated. It is determined that the disconnection detection function of is normal.

A series circuit composed of the FET 11 and the switch SW1 is connected in parallel with the receiving resistor Rr. The drain of the FET 11 is connected to the signal line L, the source thereof is connected to the ground through the switch SW1, and the gate and the source thereof are short-circuited.

By short-circuiting the gate and source of the FET 11 as described above, the FET 11 constitutes a constant current circuit. That is, when the switch SW1 is turned on, F
Even if the drain-source voltage of ET11 fluctuates, the value of the drain current hardly changes.
Performs constant current operation. The value of the constant current in this case is, for example, 3 mA.

The received signal from the line is led to the + input terminal of the fire discrimination comparator C2, and this received signal is compared with the reference voltage generated by the resistors R3 and R4 to fire from the fire detector SE. It is determined whether a signal is being received.

Next, the operation of the above embodiment will be described.

During normal fire monitoring, the switch SW
Turn off 1. In this case, if the fire detector SE has not detected a fire, a small monitoring current flows through the fire detector SE, and if 30 fire detectors SE are connected in parallel, for example, 1. 35 mA flows, and at this time, the termination resistance Rt (for example, 10 kΩ) is 2.21 m.
A current flows, and as a result, a total current of 3.56 mA flows to the receiving resistor Rr. The maximum rating of the fire detector SE is assumed to be 100 mA. In this case, the receiving resistance R
The voltage across r is about 2V, which is higher than the reference voltage Vref of the disconnection detection comparator C1,
The comparator C1 outputs "H". By the way, the switch SW1 is turned on to test whether or not the disconnection detection function of the line by the fire receiver RE1 is normal. As a result, the source of the FET 11 becomes the ground potential, so that the FET 11 carries out a constant current operation.
For example, a current of 3 mA flows through T11. Assuming that a current of 3 mA flows through the FET 11 when the switch SW1 is turned on, if the fire detector SE does not operate, 3.56 mA flows through the signal line L and 3.56 mA-3 mA through the reception resistance Rr. A current of = 0.56 mA flows through the receiving resistor Rr. The current of the FET 11 may be set to a value equal to or higher than the value of the current flowing during monitoring (for example, 3.56 mA).

As a result, when the switch SW1 is turned on,
The voltage across the reception resistor Rr decreases to 0.31V, the voltage of the reception resistor Rr at this time becomes lower than the reference voltage Vref, and the output of the disconnection detection comparator C1 changes from "H" to "L". Therefore, the fire receiver RE1
It can be determined that the disconnection detection function is normal. Further, when the disconnection detection function is tested as described above, the amount of increase flowing to the ground via the FET 11 by turning on the switch SW1 is about 3 mA, and even if a minute current of this amount increases, fire detection is performed. The current of the container SE does not increase sharply.

In other words, the fire detector SE flows only a very weak current while it is not operating, but when it is operating, it has a large maximum current below the maximum rated current depending on the impedance of the resistor connected in series with it. An operating current, for example 50 mA, flows as a fire signal. However, in the above embodiment, even if the switch SW1 is turned on while the fire detector SE is operating, the FET 11 in series with the switch SW1 constitutes a constant current circuit, and the FET 11 flows only a current of about 3 mA. Therefore, the current of the fire sensor SE does not increase significantly, and the fire sensor SE is not destroyed due to the increase in current.

On the other hand, even if the switch SW1 is turned on to test the disconnection detection function, the fire detector SE is connected to the fire receiver RE1, so the fire monitoring state is continued,
Even during the disconnection detection function test, the presence / absence of a fire signal can be detected by the fire discrimination comparator C2. Moreover, when the fire detector SE operates during the functional test, most of the large current flows into the receiving resistor Rr, causing a large voltage drop.

FIG. 2 is a circuit diagram showing another embodiment of the present invention.

The receiver RE2 which is the embodiment shown in FIG.
Although it is basically the same as the fire receiver RE1, it is for simultaneously testing the disconnection detection function of a plurality of lines, and the disconnection detection comparators C1 are provided in the same number as the number of lines. The same number as the number is provided. Also, only one switch SW2 is provided, and each FE is
The sources of T11 are connected to each other and each source is grounded via switch SW2.

Further, a diode D1 is provided in the forward direction between each signal line L and the FET 11 corresponding to this signal line L, and between each signal line L and the receiving resistance Rr corresponding to this signal line L. , The diode D2 is provided in the forward direction. These diodes D1 are provided in order to prevent the operating current of the sensor of the other line from flowing backward and destroying the FET 11. Further, the diode D2 is provided in order to prevent backflow due to a test circuit (not shown) being connected to the receiving resistor Rr and a test voltage being applied to the receiving resistor Rr during the test of the fire receiving function. .

According to the embodiment shown in FIG. 2, the switch SW
By turning on 2, it is possible to test the disconnection detection function on multiple lines at the same time, and if there is an abnormality in the disconnection detection function of a certain line, the fire receiver can determine which line the abnormality is occurring. RE2 can know. That is, if there is a comparator C1 that outputs "H" during the disconnection detection function test, the comparator C
Abnormality has occurred in the disconnection detection function of the line corresponding to 1.

FIG. 3 is a circuit diagram showing a fire receiver RE3 which is still another embodiment of the present invention.

This embodiment is basically a fire receiver RE.
Although it is the same as No. 2, the usage method of the FET 11 is different and only one FET 11 is provided for a plurality of lines. In other words, the same number of disconnection detection comparators C1 as the number of lines (signal lines L) are provided, and similarly the reception resistance Rr
Are also provided in the same number, and the cathode sides of the diodes D1 connected to the respective signal lines L are connected to each other.
The cathode side of 1 is connected to the drain of the FET 11, and the switch SW3 is connected between the source of the FET 11 and the ground.

In the embodiment shown in FIG. 3, when testing the disconnection detection function, the switch SW3 is turned on. At this time, even if the voltage across the receiving resistor Rr corresponding to the line having the disconnection drops, if the disconnection detection comparator C1 corresponding thereto does not output "L", the disconnection detection function of the line is obtained. It is possible to detect that an abnormality has occurred. Note that, in FIG. 3, since only one FET 11, that is, a constant current circuit is provided, there is an advantage that the number of parts is reduced and the cost is reduced.

In the above embodiment, the constant current circuit,
The values of the reception resistance Rr and the reference voltage Vref may be set to values other than the above values, an element other than the FET 11 may be used as a constant current circuit, and the switches SW1 and SW may be used.
2. Instead of SW3, another switching element such as an electronic switch using an active element may be used. Further, instead of testing the line disconnection detection function of the receivers RE1, RE2, and RE3, the same applies to the case of testing the line disconnection detection function of the repeater. That is,
The present invention is an apparatus for testing the disconnection detection function of a line by a receiving unit in a fire alarm facility.

[0028]

According to the present invention, a fire signal can be detected when the disconnection detection function of the line by the receiving unit is being tested, and a fire detection can be performed while the disconnection detection function is being tested. Even if the firearm operates, the fire detector is not destroyed.

[Brief description of drawings]

FIG. 1 is a circuit diagram showing an embodiment of the present invention.

FIG. 2 is a circuit diagram showing another embodiment of the present invention.

FIG. 3 is a circuit diagram showing still another embodiment of the present invention.

FIG. 4 is a circuit diagram of a circuit for detecting disconnection in a conventional fire receiver.

[Explanation of symbols]

RE1, RE2, RE3 ... Fire receiver, C1 ... Disconnection detection comparator, C2 ... Fire discrimination comparator, Rr ... Reception resistance, 11 ... FET, SW1, SW2, SW3 ... Switches.

Claims (2)

[Claims] 1. A fire alarm having a disconnection detection function for determining the presence or absence of disconnection of a line by connecting a reception resistor in series with a fire detector and comparing a reception signal detected by the reception resistor with a reference voltage. In the equipment, a fire alarm characterized in that a constant current circuit for flowing a current having a value smaller than the operating current of the fire detector is provided in parallel with the receiving resistor, and a switching element is provided in series with the constant current circuit. Testing equipment for disconnection detection function in equipment. 2. The test device for a disconnection detection function in a fire alarm facility according to claim 1, wherein the constant current circuit is a constant current circuit using an FET.