FI75430C - Combustible gas detector. - Google Patents

Description

Flammable gas detector 75430

Gas detector

The invention relates to a flammable gas detector comprising a bridge circuit with resistors, one branch of the bridge circuit of which is a gas sensor, which is a p1 atina1 ejee ring wire coil and an alarm transformer.

5 In the use of fuel gases in both industry and households, it is known that the very strict safety requirements for the operation of equipment represent a paramount technical problem, as it is necessary to minimize the potential for leakage and consequent fire or other damage to property and / or people. These flammable gases are also often highly toxic.

It is therefore particularly important to have anti-hazard devices capable of detecting the presence of a dangerous concentration of gases and thus controlling the operation of alarm devices, especially if devices using flammable gases are located in enclosed rooms. It is clear that the rather high sensitivity of the devices and the very high reliability of their operation are the basic requirements for the detector.

The detector according to the invention meets these requirements to a very large extent, as it uses a specially designed electronic sensor that can be connected to instruments with variable operating sensitivity, and in addition the electronic operation of the detector ensures fast and reliable alarm sensitivity and very high flexibility in use.

The invention is characterized in that the first circuit is attached to a bridge circuit and acts as a differential amplifier with a variable threshold 30 to use the imbalance between the poles of said circuit when the amount of gas in the vicinity of the sensor exceeds a predetermined limit to initiate a second circuit hälytysmuuttajän.

35 The sensing element of the detector is a dense coil wound mainly of plain alloy wire, which, as an electric current 75430 passes through it, is able to change its resistance as a function of the density percentage of the flammable gas surrounding this coil. When this sensor is placed on the branch of a bridge circuit made of resistors with constant resistance, control variations caused by the presence of gas residues can cause control signals to control electronic circuits used to generate an alarm or control other measures in a variety of different applications.

The invention will now be described in more detail with reference to the accompanying drawing, which schematically shows a preferred embodiment of the invention. This exemplary embodiment is shown merely to illustrate the invention without limiting the invention in any way.

Figure 1 shows a block diagram of a flammable gas detector according to the invention.

Figure 2 shows a circuit diagram of this detector.

According to the accompanying drawings, the basic structure of the detector according to the invention comprises: a power supply part comprising a mains supply device A with a rectifier bridge suitably stabilized by known electronic circuits, a bridge circuit with resistances PM. One branch of this bridge circuit has a sensor R for receiving gas. This sensor is formed of a thin platinum alloy wire into a coil enclosed in a Davy-type metal mesh cage to prevent the flames from advancing in the event of gases igniting around the coil, - controlled ambient air possible suction and transfer means, including suction pump and duct R to increase sensitivity, - audible oscillator G and electroacoustic transducer connected in series.

According to a preferred embodiment of the invention, in order to achieve better stability, the mains supply device A has a transistor T1, a zener diode Z1 and an integrated circuit I c 1.

75430

The circuit PM is made of two resistors R2 and R4, the resistance of which remains constant from the potentiometer resistance R3 and the above-mentioned sensor R. The two opposite poles of the bridge are connected to the input terminals 2,3 of the differential amplifier Ad 5 and the output 6 of this amplifier is connected to the The amplifier generates low frequency oscillations. The output 3 of the integrated circuit Ic2 is connected via a series capacitance C8 and a resistor R7 to the above-mentioned electroacoustic device TA.

To prevent possible malfunction in the event of a mains failure, the detector has a backup supply part A ', which includes a buffer battery connected to the relevant automatic recharging circuit, an alarm device that alarms 13 in the event of a mains failure and battery discharge.

The detector works as follows: as the concentration of flammable gases increases around the sensor R, which changes the resistance of this sensor, a

Ad is the imbalance of the electrical voltage between the terminals 2, 3, and the signal thus obtained, when appropriately amplified, triggers the operation of the audible signal oscillator G, which in turn starts the conversion device TA.

25 This operating mode will remain for as long as the sensor detects a higher percentage of gas than specified. This predetermined value can be suitably set by varying the operating threshold obtained by changing the equilibrium state of the bridge by means of potentiometer R3.

30 Execution example

The electrical values of the main components used in one embodiment of the invention are as follows: 354 75430 = 2200 uF = 10 Kohms C „rC, = C, = 0-, = 10, uF R, = 100 Kohmia Z i 6 / / o C4 = 0 , 1 / uF R? = 22 Ohms 1/2 \ d

Cg = 100 / uF T1 = BC 140

Δ R1 = 470 Ohms Z. ^ = Zeener 12 v / 0.4 W

R ^ = 220 Ohms = ^, uA741 R ^ = 100 + 470 Ohms 1 ^^ = LM 340T5.0 R ^ = 6.8 Ohms Ic2 = NE555

Structural details such as shape, dimensions, weight, characteristic curves, component placements, component types and electrical values may in practice vary within the basic idea of the invention.

13

Claims (5)

A flammable gas detector comprising a bridge circuit with resistances (PM), one branch of the bridge circuit being a gas sensor (R), which is a platinum alloy spool, and an alarm converter (TA), characterized in that the first the circuit (Ad) is attached to the bridge circuit (PM) and uses as a differential amplifier with a variable threshold of operation the imbalance between the poles (2-3) of said circuit (Ad) when the amount of gas in the vicinity of the sensor (R) exceeds a predetermined limit; (lc2), which acts as a low-cycle oscillator and activates the alarm converter. Flammable gas detector according to claim 1, characterized in that said circuits (Ad) and (lc2) are integrated circuits. A detector for flammable gases according to claim 1, characterized in that the threshold of said circuit (Ad) can be varied by means of a potentiometer (R3). Flammable gas detector according to Claim 1, characterized in that the gas sensor 20 (R) is located in a Davy cage. A flammable gas detector according to claim 1, characterized in that the means (As) for transferring the ambient air to the actual sensor (R) are connected to the gas sensor (R). 25