DE2537598B2 - Fire detector - Google Patents

Description

The invention relates to a fire detector with an ionization chamber arranged in a housing, an electrode attached to a holding device made of insulating material in the ionization chamber is attached to an electronic circuit that applies a voltage between the housing and the electrode sets and responds to changes in the current flowing through the ionization chamber, and with a Heater.

Such fire detectors are z. B. in mines installed to report the outbreak of fire. They essentially have a housing in which there is a cavity called the ionization chamber in which an electrode is arranged Electrode is attached to a holding device made of insulating material. Furthermore, it is an electronic one Circuit provided which applies a voltage between the housing and the electrode and is able to To recognize changes in the current flowing through the ionization chamber.

Usually the electrical current flowing through the ionization chamber is substantial constant when no combustion components are present. Cause if fire breaks out however, the combustion particles then incurred cause a drop in the current strength. This power drop will Detected by the electronic circuit, which puts an alarm device or the like. In operation.

Under certain conditions, such as B. are found in mines, can at the Moisture and dust collect on the surface of the holder. This can lead to small Leakage currents flow between the electrode and the housing, which in turn reduces the functionality of the Detector is significantly affected. In this context it should be noted that the through the current flowing through the ionization chamber is normally very small, e.g. B. in the order of 500 Pico amps.

It is known to additionally heat an ionization fire alarm to avoid condensation caused by false alarms could be triggered to prevent (DE-AS 22 04 930).

The object of the invention is to create a fire detector in which without additional effort and without to disrupt the actual function of the ionization chamber leakage currents due to the accumulation of moisture on the holding device for the electrode.

To solve this problem, the invention provides that the heating device consists of a heat-generating component of the electronic circuit, which is in a cavity of the holding device is arranged between the electrode and the housing

In the fire detector according to the invention, there is a heat-generating component of the electronic circuit housed in a cavity provided on the support part between the electrode and the housing, so that the holding device is at least partially heated and any moisture present evaporates immediately

The heat-generating component is expediently an operational amplifier.

In the following an embodiment of the invention with reference to the single figure of Drawing explained in more detail

In the drawing, a fire detector according to the invention is formed in longitudinal section. The fire detector consists essentially of a housing 10 in which the ionization chamber 12 with corresponding Openings for the passage of smoke is located, an electrical electrode 14 and a holding device 16, with which the electrode 14 is attached to the inner wall of the housing 10 at 18

The usual electronic circuit for detecting changes in the ionization chamber flowing through current is housed in a container 20, which is in a cavity 22 of the Holding device 16 is arranged.

The holding device 16 has a vertical column 24, at the lower end of which the electrode 14 is arranged

The column 24 is partially hollow and contains in its interior 26 one of the heat-generating components of the electronic circuit, e.g. a transistor or amplifier. The component in question is preferably an operational amplifier 28, which is electrically connected to that in the container 20 The heat generated by the operational amplifier prevents the build-up of Moisture on that part of column 24 surrounding the operational amplifier, and this in turn leads to the fact that leakage currents that can flow via the holding device 16 between the grid and the housing, be minimized.

Tests have shown that when a heat output of about 50 mW is applied to the inner surface of the Column 24 for a length of about .; 5 mm a temperature rise on the outer surface of this part of the Column of 5 ° C takes place This heating is sufficient to also under the relevant part of the leakage current path keep dry in extremely humid conditions. By a suitable choice of the operational amplifier one can easily obtained a heat loss of 45 mW in the idle state.

1 sheet of drawings

Claims (2)

Patent claims: 1. Fire detector with an ionization chamber arranged in a housing, an electrode, which is attached to a holding device made of insulating material in the ionization chamber is, with an electronic circuit that applies a voltage between the case and the electrode sets and responds to changes in the current flowing through the ionization chamber, and with a Heating device, characterized in that the heating device consists of a heat-generating There is component (28) of the electronic circuit, which is located in a cavity of the holding device device (16) is arranged between the electrode (14) and the housing (IG} 2. Fire detector according to claim 1, characterized in that the heat-generating component is an operational amplifier (28)