Communications: electrical – Condition responsive indicating system – With particular system function
Reexamination Certificate
1999-05-07
2001-07-10
Crosland, Donnie L. (Department: 2632)
Communications: electrical
Condition responsive indicating system
With particular system function
C340S505000, C340S508000, C340S509000, C340S512000, C340S514000, C340S628000, C340S693500, C340S693900, C340S693120
Reexamination Certificate
active
06259363
ABSTRACT:
This invention relates to a signalling device and to a monitoring system. The signalling device is of the kind having a head which is removable from a base and which includes signalling means for applying a pulsating signal to supply lines when the head is removed. The monitoring system includes a plurality of such signalling devices and monitoring means responsive to the pulsating signal to indicate the absence of a head from its base. The invention can be used in the field or fire detection where, for example, fire detectors (i.e. signalling devices) are placed in different locations in a fire detecting system (i.e. monitoring system) for signalling a change in a parameter, thereby causing an alarm signal to be given. The invention is then used for signalling that the head of a fire detector has been removed in the system. The signalling device may also be an alarm device having a sounder head which can be removed from a base, the invention similarly being used to indicate head removal. The term “signalling device” is therefore used broadly to cover any kind of unit which can be used for signalling and where some function may be impaired by head removal. Although the invention is particularly useful in the field of fire detection, references to such use are not to be construed as limiting.
BACKGROUND PRIOR ART
A centrally controlled fire alarm system can comprise a “central control unit” (or CCU) for monitoring different groups of fire detecting devices located in different parts of a building. Each group of fire detecting devices can be connected across a common pair of supply lines which are linked back to the CCU which normally applies say 12 volts to the lines to operate the detecting devices. Alarm devices, which are triggered by a higher voltage, can be connected across the same pair of common supply lines and the CCU can respond to a “fire detection signal” to apply say 24 volts to the lines so a to cause the alarm devices to give “alarm signals”. This system avoids an excessive amount of wiring compared with a system where detecting devices and alarm devices are connected to respective dedicated supply lines. When such a system is in a standby condition, the supply voltage is below a threshold of, for example, 18 volts, and each fire detection device has a high line impedance, thereby drawing little or no current from the supply. On detecting a fire, the fire detecting device produces a detection signal by changing from a high line impedance to a low line impedance, for example, by switching a known resistance across the supply lines. The detection signal is detected by a control unit which then applies the higher voltage (24 v) to the lines. As the threshold voltage is then exceeded, the alarm devices are activated to produce warning signals. Such a system is disclosed in our copending UK application no. 9808094.8 to which reference may be made for further details. Alternatively or additionally, an alarm device may produce a warning signal when the polarity of the supply is reversed.
Where a fire alarm system is used to protect life or property, national regulations or codes of practice usually require the supply lines connecting the detection and alarm devices to the CCU to be monitored for an open circuit fault condition and for such fault condition to be indicated and a fault warning given at the CCU. Some regulations also require the supply lines to be monitored for a short circuit fault and for such fault to be indicted at the CCU. By connecting an “end of line device”, for example a resistor, across the remote end of the supply lines so as to establish a known current in the supply lines, the CCU can indicate a fault when the current in the supply lines is abnormally low or high.
Where, to facilitate servicing, fire detectors comprise a detector head which is easily detachable from a mounting base fitted with terminals for connection to supply lines, regulations normally require that the CCU indicates a fault condition when a detector head is removed. This requirement may be met by causing the detector head to open circuit one of the supply lines when it is detached from the mounting base, thereby causing the CCU to indicate a fault condition in response to a supply line open circuit.
FIG. 1
shows a typical wiring arrangement of supply lines from a CCU to fire detector mounting bases (
8
) and alarm devices. When a detector head is attached to a mounting base a conducting path is completed between terminals L
1
IN and L
1
OUT via electrically connected corresponding terminals on the detector head that engage with terminals L
1
IN and L
1
OUT. A further terminal on the detecting head engages with mounting base terminal L
2
thereby completing the supply connection to the detector head.
The arrangement shown in
FIG. 1
has the disadvantage that removal of a detector head open-circuits a supply line to detection devices and alarm devices further away from the CCU than the detector head removed, thereby rendering those devices inoperative and parts of the building unprotected. Under some regulations this arrangement is not permitted, particularly if an alarm device or a manually operated detection device (manual call point) is rendered inoperative by the removal of a detector head. This problem can be overcome by connecting all alarm devices and manual call points closer to the CCU than any detecting device with a detachable detector head. However this approach uses excessive wiring if the optimum positioning of detection devices, manual call points and alarm devices is not to be compromised.
FIG. 2
shows an alternative wiring arrangement in which mounting base terminals L
1
IN and L
1
OUT are permanently connected by a diode (D
1
). When the detector head is attached to the base (
8
) the diode is short-circuited by the conducting path through the detector head linking L
1
IN and L
1
OUT. When the detector head is removed the diode maintains a conducting path between terminals L
1
IN and L
1
OUT, the diode being connected so as to maintain the supply of power to detection devices and alarm devices beyond the point where the detector head was removed. Because an open circuit is not introduced by removal of a detector head, means must be provided for the presence of a diode in the supply line to be detected in order for the removal of a detector head to be detected and a fault indicated at the CCU.
Monitoring for detector removal using the diode means described above has limitations. Firstly, the removal of a detector head produces a voltage drop, equal to the forward bias voltage of the diode D
1
, in the supply to detection devices and alarm devices beyond the point at which the head was removed. As more heads are removed the voltage supplied to devices near the remote end of the supply lines progressively decreases. For example, if 20 heads are removed, the decrease would be typically greater than 10 volts for general purpose silicon diodes, and over 5 volts for Schottky diodes. This limits the number of detector heads that can be removed without reducing the supply voltage below the minimum operating voltage of the alarm devices and the remaining detection devices, including manual call points. A second limitation is that where detection devices and alarm devices are connected to the same pair of supply lines, both device types must be operated in the same polarity.
GB-A-2069205 discloses other means for detecting detector head removal without interrupting the supply to detection devices and alarm devices or introducing a diode in a supply line.
FIG. 3
shows a typical wiring arrangement in which the lines between detection devices are continuous and not broken by the removal of a detector head (
7
).
FIG. 3
also shows circuit means incorporated in the base (
8
) of each detection device. When the head (
7
) is attached to the base (
8
), the transistor T
1
is turned off and the circuit presents a high line impedance. When the detector head is removed, the short circuit that existed between the base and emitter of T
1
, via head and base inter
Apollo Fire Detectors Limited
Cowan Liebowitz & Latman PC
Crosland Donnie L.
Gable R. Lewis
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