DE102006011117A1 - Combustible gas detecting device for use in e.g. chemical system, has sensor arranged in measuring space, where value for humidity contained in gas mixture and/or temperature of gas mixture is determined by another sensor - Google Patents

Abstract

The device has a sensor (6) arranged in a measuring space, where the sensor functions according to a principle of a catalytic combustion or according to the principle of semiconductor. A value for humidity contained in a gas mixture and/or temperature of the gas mixture is determined by another sensor (8), where the sensor data is evaluated by an evaluation logic in a delayed manner. An independent claim is also included for a method for detecting combustible gases in a gas mixture.

Description

The The present invention relates to a detection device for the detection of combustible gases in a gas mixture with a in a measuring room arranged, according to the principle of catalytic combustion or on the semiconductor principle functioning sensor as well as on a corresponding procedure.

Out In the prior art sensors are known which are used be to detect the presence of combustible gases. The sensors are coated with a catalytically active substance through which the combustible gases optionally contained in the gas mixture Oxygen react without igniting. By the reaction process of the combustible Gas with oxygen raises the temperature of the sensor. This Temperature rise can be used as a signal for the presence of flammable Gases are electronically evaluated. The semiconductor sensor supplies a signal that rises exponentially as an output signal and in the Generally not as accurate as the catalytic sensor, however, it is especially good for detecting small amounts of gas suitable.

An example of a generic sensor can be found in the document EP 0 321 785 A2 ,

The Known sensors are used to improve the tightness of gas pipes to check. Also Chemical plants, incinerators and production plants can with appropriate sensors to ensure the safety of process flows guarantee.

at The prior art sensors have the problem that in these first reacted a certain minimum amount of combustible gas must, before a clear signal can be derived in the sensor. For smaller gas quantities work the known sensors too inaccurate to a reliably evaluable sensor signal deliver.

Accordingly, it is the object of the present invention, a detection device and to provide a method for the detection of combustible gases, which is able, even from only small quantities to derive a clear sensor signal from combustible gases.

The Task is for a generic detection device solved, by the detection device at least one further sensor of which a value for the moisture contained in the gas mixture and / or the temperature of the Gas mixture is determined. The task is for a generic method solved, in addition to measurement of the principle of catalytic combustion or after Semiconductor principle functioning first sensor at least one further measured value a humidity and / or temperature sensor as a correction value for the measurement of the first sensor is determined.

By the device according to the invention and the inventive method is a safe display even the smallest traces of combustible gases possible. The Output signal of the catalytic sensor or semiconductor sensor can be resolved much higher, so that in Measuring range Even very low concentrations in the ppm range are detectable. The high resolution the sensor signal becomes possible because any signal fluctuations caused by humidity and / or Temperature fluctuations in the measured gas mixture occur through the second sensor can be compensated. While conventional detection devices in the ppm measuring range no reliable Can deliver sensor signals, because the measurement result is influenced by humidity and / or temperature fluctuations, is the detection device according to the invention and the method according to the invention capable of eliminating the temperature and / or moisture dependent disturbances and in this way a reliable one Even with very small quantities of combustible gases, the sensor signal should be emitted.

modifications and preferred embodiments of the invention will become apparent from the following representational Description, the features of the subclaims and the accompanying drawings.

The Invention will now be explained in more detail with reference to an embodiment. Show it:

1 a view from above of a detection device and

2 a sectional view taken along the line AA in 1 ,

In 1 is a detection device from a top view 2 Visible, a measuring room 4 having. In the embodiment, the detection device 2 shown to the top open, of which it is also possible, however, the detection device 2 to be provided with a lid. In the 1 illustrated detection device 2 can be placed with the open side on a surface, so that also characterized a closed measuring space 4 results.

In the measuring room 4 is a catalytic sensor 6 and a second sensor 8th arranged. The housing wall 10 is designed so that between the surface of the catalytic sensor 6 and the second sensor 8th and the inner surface of the housing wall a gap 12 results, by the one of the detection device 2 can flow through to be tested flow of a gas mixture. It is advantageous, the spaces 12 keep as small as possible to a dead volume of gas within the measuring space 4 to avoid. By a small space between them 12 between the sensors 6 . 8th and the housing wall 10 will ensure that in the space 12 only one gas mixture flowing therethrough, whose chemical composition almost or completely the composition of the surrounding area of the detection device 2 corresponding gas corresponds. Due to the low dead volume mixing and dilution processes with a in the measuring chamber 4 kept small amount of gas, and possibly existing proportions of combustible gas in the gas mixture flowing through can be detected without much time offset.

The gaps 12 are from the outside surfaces of the sensor (s) 6 . 8th and the inner surfaces of the housing wall 10 limited, with the gaps on both sides of the sensors 6 . 8th and / or on the top and bottom sides of the sensors 6 . 8th can be located. The gaps 12 have a smaller width than the thickness of the sensors 6 . 8th and / or the housing wall 10 ,

In the embodiment, only a single second sensor 8th in the measuring room 4 shown. Notwithstanding this embodiment, in addition to the catalytic sensor 6 also several second sensors 8th be arranged, or the second sensor 8th is equipped so that both a current humidity and temperature value can be determined by him. By the arrangement of the second sensor 8th in the measuring room 4 will ensure that both sensors 6 . 8th examine the same gas mixture for its properties. This ensures that temperature and / or humidity fluctuations in the gas mixture passing through the measuring space 4 flows through, are determined exactly for the gas mixture, for which also the first sensor 6 detects the presence of combustible gases.

The detection device 2 is with an opening 14 for the gas inlet and with an opening 16 provided for the gas outlet. The location of the openings 14 . 16 in the detection device 2 is chosen so that a good flow of the two sensors 6 . 8th ensured by the gas mixture. So it is beneficial to the opening 14 for the gas inlet on another side of the detection device 2 to be provided as the opening 16 for the gas outlet, so that in the measuring space 4 incoming gas mixture initially at least one of the two sensors 6 . 8th must flow around it through the opening 16 again from the measuring room 4 can escape. The opening 14 for the gas inlet can be placed so that the second sensor 8th from that into the measuring room 4 flowing gas mixture is flowed around.

Depending on the type of second sensor 8th However, it can also be advantageous to use the second sensor as shown in the embodiment in a lateral distance to the direct line connecting the opening 14 and the opening 16 in the measuring room 4 to place in order thereby possibly occurring excessive fluctuations of the sensor 8th to avoid measured values and by the slightly off-site placement of the second sensor 8th a smoothing of this sensor 8th to reach measured values.

To a constant and uniform flow of the detection device 2 To ensure the detection device 2 a pump 18 upstream, which sucks the gas mixture from the environment and into the measuring chamber 4 into promoted. To a deterioration of the sensor values due to different pressure conditions in the measuring chamber 4 To avoid, it is beneficial if the pump 18 is designed by their flow rate forth so that they only a slight overpressure in the measuring chamber 4 can build up against the rest of the ambient atmosphere.

In case of malfunction of the pump 18 or fluctuating flow rates do not receive faulty sensor signals, it is advantageous if the measuring space 4 through the opening 16 open to the neighboring environment. Through the opening 16 it is ensured that the pressure conditions within the measuring space 4 Also in case of malfunction of the pump 18 correspond substantially to the pressure conditions in the environment.

The pump 18 is upstream of the measuring chamber, because at a blockage of the suction port or the opening 14 no negative pressure in the measuring chamber 4 can arise. In one the measuring room 4 downstream suction pump could occur in such cases, the measured values falsifying negative pressure state. To the risk of clogging the opening 16 minimize the opening 16 be designed by their size and location so that a blockage is possible excluded. The risk of blockage is reduced when the opening 16 a larger area than the opening 14 having.

The sensor 6 and the sensor 8th are over interconnections 20 with an electronic evaluation system 22 connected. About the connection line 20 stand those of the sensors 6 . 8th determined sensor values for an evaluation available. The evaluation can be done via an in the transmitter 22 existing software or other evaluation circuit. The connection line 20 does not have to consist of a wired connection, but can be realized for example via spring contacts or a direct solder joint. When directly soldering one or more sensors 6 . 8th the transitional resistances which may occur in other connection techniques are reduced or completely avoided.

Depending on the type used for the sensors 6 . 8th It may be advantageous not to compare the respectively currently measured sensor data in the evaluation, but that of one of the two sensors 6 . 8th originating sensor signals can be specifically delayed in the evaluation in time, thereby the possibly different failing reaction times of the sensors 6 . 8th compensate. The delay in the processing of the resulting sensor signals, for example, by a in the transmitter 22 Software designed for this purpose.

In the method according to the invention, in addition to the measured value of the first catalytic sensor 6 at least one further measured value of a second sensor 8th determined, wherein the second sensor 8th a measured value for the humidity and / or temperature of the gas mixture to be monitored is determined and that of the second sensor 8th determined measured value is used as a correction value for the measured value of the first sensor. The correction of the measured value of the first sensor 6 by the from the measured value of the second sensor 8th derived correction value can be determined by the evaluation electronics 22 be done by means of a suitable software. For example, that of the second sensor 8th determined measured value are further processed as a computational factor with which the measured value of the first sensor 6 is multiplied. According to the inventive method, the presence of combustible gas is considered to be given only if, after the correction of the first sensor value by the second sensor value, there is still a residual quantity remaining outside a value interval defined as uncritical. Depending on the sensor types used, a time offset between the sensor data to be compared with one another may be advantageous. It is also possible in the method according to the invention to determine in each case a value for the current humidity and the temperature of the gas mixture and each of these sensor values in each case as a correction factor for correcting the value of the first sensor 6 to use.

In 2 is a cross-sectional view taken along the line AA 1 to see. In the cross-sectional view is clearly visible that the spaces 12 from their width only a fraction of the thickness of the sensors 6 . 8th and also the housing wall 10 exhibit. In the cross-sectional view is also clearly visible that the spaces 12 around the sensor 6 and the sensor 8th around in an open connection with each other. The sensor 6 and the sensor 8th are separated by a gap 12 separated, which is wider than the measure of the gaps 12 at a location other than the areas where the sensors are located 6 . 8th adjacent to each other.

The above objective Description is for illustrative purposes only. It presents the expert no difficulties in the embodiment shown arrangement of components in a suitable appearing him Change way and to adapt to a specific application, without thereby to remove from the present invention.

Claims (7)

Detection device ( 2 ) for the detection of combustible gases in a gas mixture with a in a measuring space ( 4 ) arranged according to the principle of catalytic combustion or on the semiconductor principle sensor ( 6 ), characterized in that the detection device ( 2 ) at least one further sensor ( 8th ), from which a value for the moisture contained in the gas mixture and / or the temperature of the gas mixture can be determined. Detection device ( 2 ) according to claim 1, characterized in that the detection device ( 2 ) with evaluation electronics ( 22 ) is provided, from which the sensor data can be evaluated with a time delay. Detection device ( 2 ) according to claim 1 or 2, characterized in that at least one sensor ( 6 . 8th ) with the evaluation electronics ( 22 ) is soldered. Detection device ( 2 ) according to one of the preceding claims, characterized in that a gas mixture in the measuring space ( 4 ) pump ( 18 ) upstream of the measuring space ( 4 ) and the opening ( 16 ) for the outlet of the gas mixture from the measuring space ( 4 ) is open to the environment. Detection device ( 2 ) according to one of the preceding claims, characterized in that the temperature and / or humidity sensor ( 8th ) in the same measuring room ( 4 ) is arranged as the operating according to the principle of catalytic combustion or semiconductor principle sensor ( 6 ). Method for the detection of combustible gases in a gas mixture with a in a Meß space ( 4 ) arranged according to the principle of catalytic combustion or on the semiconductor principle sensor ( 6 ), characterized in that in addition to the measured value of the first sensor operating on the principle of catalytic combustion ( 6 ) at least one further measured value of a humidity and / or temperature sensor ( 8th ) as a correction value for the measured value of the first sensor ( 6 ) is determined. Method according to Claim 6, characterized in that the measured values of the first sensor ( 6 ) with time-shifted measured values of the humidity and / or temperature sensor ( 8th ) are processed as a correction value.