RU2024947C1 - Fire signalling device - Google Patents

Abstract

FIELD: automatic devices of fire-extinguishing systems. SUBSTANCE: fire signalling device has sensitive-and-amplifying circuit made up of temperature transducer 1, relay 2, trimming resistor, monitoring resistor 3 which is connected to power source through voltage divider resistors 4,5 and switch 6; device has also signalling element 7 which is connected to power source through make contact of relay 2. Relay of polarized type is of two-winding design. Additional winding 9 of relay is connected through trimming resistor 8 to stabilized power source in opposite polarity relative to temperature transducer. EFFECT: enhanced functional reliability of device. 1 dwg

Description

 The invention relates to fire automation and may find application in fire alarm systems, for example, in aircraft.

 A device for signaling is known, comprising a diode consisting of a relay, a temperature sensor, a voltage divider, the circuit of which is connected through an additional resistor to an external power source.

 The disadvantage of this device is the relatively low operational reliability associated with its sensitivity to mechanical and climatic influences due to the presence of a semiconductor element and direct current in the sensor circuit.

 The closest in technical essence to the claimed one is a fire alarm device containing a relay, one end of the winding of which is connected to one terminal of the temperature sensor, the voltage divider is made on resistors, the other end of the relay winding is connected through series-connected resistors of the voltage divider to the plus bus of the power source and through a second resistor of the voltage divider with another terminal of the temperature sensor and with a third resistor, which is connected to the anode of the diode and the negative bus of the power source, and the cathode of the diode yes connected to a common connection point of the first and additional resistors of the voltage divider. This device uses a permanent magnetization technique to provide a given contact pressure of the relay contacts.

 However, in the event of a malfunction in the temperature sensor circuits, the device loses its functionality, since in this case a stray current flows from the plus of the power source through the relay winding, which affects the magnitude of the permanent magnetization.

 The aim of the invention is to increase the functional reliability of the device by eliminating the above disadvantage of the prototype.

 Comparative analysis with the prototype shows that the inventive device contains a new element - an electrical circuit consisting of an additional relay winding and a tuning resistor connected to a stabilized power source. The arrangement of the tuning resistor is also changed, which, instead of the sensor circuit, is placed in the circuit of the additional relay winding, and one of the sensor leads is directly connected to the voltage divider.

 Thus, the claimed device meets the criterion of "novelty." In the known technical solutions are not found signs that distinguish the claimed solution from the prototype. This allows us to conclude that the technical solution meets the criterion of "significant differences".

 The drawing shows a device.

 The fire alarm device contains a temperature sensor 1, a double-winding polarized relay 2, a control resistor 3 included in the circuit of the temperature sensor 1 and simultaneously forming a voltage divider with resistors 4, 5, which, in combination with a power source, switch 6, and signal lamp 7, makes an integrated control circuit . The device has an adjustable circuit, consisting of a tuning resistor 8, included in the circuit of the additional winding 9. In this case, the main winding of the relay 2 is connected in series with the sensor 1 and the control resistor 3, forming a closed sensitive-amplifying circuit. An additional winding 9 through a trimming resistor 8 is connected to a stabilized power source so that its ampere turns are directed against the ampere turns of the main winding.

 The device operates as follows.

 In the ready state, the temperature sensor 1 is installed in the protected zone. The additional winding circuit 9 through a resistor 8 is connected to a stabilized voltage source. In this case, the relay armature is closed to a free contact, and the gap between the armature and the other contact connected to the fire alarm means 7 is doubled compared to the neutral position of the armature (in the prototype).

 The attraction of the armature to the free contact is ensured by the presence of magnetic flux in the additional winding of the polarized relay 2, directed towards the magnetic flux in the main winding created by the thermoEMF of the sensor, as well as by the fact that in the initial position (in the absence of a fire) the magnetic flux in the main winding is much smaller than the magnetic flux in an additional winding. The attraction of the armature to the free contact provides a higher resistance of the device to mechanical stress, since additional force is required to open the armature from the free contact.

 If a thermoEMF of the temperature sensor 1 occurs in the protected area of the fire, it is enough to form a magnetic flux in the main winding of the relay that exceeds the magnetic flux of the additional winding 9 and causes the relay 2 to trip and the signal lamp 7 to turn on.

 The operability of the circuits is monitored using a voltage divider made on resistors 3, 4 and 5 using a switch 6.

R_Σ·2ΔI. Во-вторых, облегчается и делается более точной регулировка устройства. В-третьих, свободный контакт может быть подключен к дополнительному сигнальному устройству, а степень поджатия контакта может быть отрегулирована таким образом, что размыкание контакта (без замыкания к другому) может сигнализировать о перегреве, т.е. устройство может быть использовано для расширения информативности.The use of the inventive device, in addition to increasing reliability, provides several other advantages. Firstly, the requirements for the spread of the relay parameters (tripping current) can be reduced, which, in turn, reduces the cost of the device. This is achieved by reducing the total resistance of the sensitive amplifier circuit, for example, when the total resistance of the circuit is R _{Σ, the} increase in thermopower E to compensate for the spread of the response current of the relay ΔI is
ΔE ₁ = R _Σ ΔI. With a decrease in R _{Σ by} half (due to the exclusion of the tuning resistor from the circuit to the regulated circuit), the spread of the operating currents for the same increase in thermopower can be twice as large
ΔE ₁ =

R _Σ · 2ΔI. Secondly, the adjustment of the device is facilitated and made more accurate. Thirdly, a free contact can be connected to an additional signaling device, and the degree of contact tightening can be adjusted so that opening the contact (without closing to another) can signal overheating, i.e. the device can be used to expand information content.

Claims (1)

 A FIRE ALARM DEVICE containing a signal relay, thermoelectric sensors and a control resistor that are connected together in series and form a closed loop, one output of the control resistor through the first resistor of the voltage divider is connected to the zero power bus, the other terminal of the control resistor is connected to one output of the second resistor voltage divider, the movable contact of the switch is connected to the positive bus of the power supply, which is also connected to the switching contact of the signal relay, one n the movable contact of which through the signal element is connected to the negative bus of the power source, characterized in that, in order to increase the functional reliability of the device, a trimming resistor is introduced into it, and the signal relay is double-polarized, the trimming resistor is connected in series with the additional winding of the signal relay, the circuit from the additional winding of the signal relay and the tuning resistor is connected to the buses of the power source, the other terminal of the second resistor of the voltage divider is connected n with the fixed contact of the switch.