DE2306829A1 - DEVICE FOR DETECTION AND DOSING OF A COMPONENT OF A GAS MIXTURE - Google Patents

Description

DipL-lng. H. MITSCHERLICH 8 MUNICH

Dipl.-Ing. K. GUNSCHMANN steinsdorfstrasse ίο

Dr. rer. not. W. KÖRBER »(οβπ) ·» 66Μ Dipi.-Ing. J. SCHMIDT-EVERS PATENTANWÄLTE

February 12, 1973

DIRECTOR NATIONALE DES USINES RENAULT 8/10, Avenue Emile Zola
Billancourt (Seine) France

and

AUTOMOBILE PEUGEOT

75, Avenue de la Grande Army Paris / France

Sponsorship

Device for the detection and dosing of a component of a gas mixture

The invention relates to a device for regulating pollutant-free combustion in internal combustion engines through immediate continuous quantitative monitoring of carbon monoxide or another pollutant; In particular, the invention relates to a measuring device which gives a quantitative indication of a gas content, which constantly transmits the size of this gas component in the form of an analog voltage signal.

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The difficulty is to carry out such measuring devices so that the heat shocks and the corrosive and abrasive effects of the exhaust gases have grown. The one in the French patent application 71/22 690 of the applicants of June 22, 1971 The differential measuring detector described is located in a line running parallel to the main exhaust line, in which the gas flow is reduced and also cooled. This solution proves to be effective, the attachment but is a bit cumbersome and the costs are therefore not negligible.

The invention is based on the object of at least eliminating this disadvantage by means of a device for quantitative measurement avoid a component of a gas mixture; this facility is designed to be more straightforward, immediate can be used in the exhaust gas flow of an engine and thereby in this environment can still be permanent.

Such a device with two matching, temperature-dependent electrical resistances, one of which is on its surface of the catalytic reaction is exposed to a catalyst that reacts with the gas component to be determined and dosed, what reaction the temperature of this resistance wire influenced, the resulting change in electrical resistance versus the change in resistance of the other element is the electrical analog measured variable represents for this gas component, is characterized in that, according to a preferred embodiment, the two matching resistance wires as Wires are made of one and the same metal, one of which is superficially covered with a catalyst layer is coated, for example with a selectively oxidizing agent

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and exothermic layer; if carbon monoxide is to be dosed, one can advantageously use platinum or Use palladium for this purpose.

Thermistor measuring elements can also be omitted as elements Sintered materials use one of these elements impregnated with a solution of the catalyst. These Solution is preferably chosen so that there is a better protection against erosion in the measuring element Exhaust gas flow and a larger effective area of the catalyst and thus' results in greater sensitivity.

This sensitivity is also enhanced by the semiconductor effect increased approximately tenfold compared to the previously used metal wire resistors. NTC thermistor measuring elements however, they are more sensitive to thermal stress than the simple metal wires,

You can also work with two metal wires of the same electrical resistance but of different types a wire consists of a metal which, in the presence of the gas to be metered, brings about a catalytic reaction (e.g. platinum wire). This solution offers the advantage over what has been described above, none Having to provide a catalyst as a coating or impregnation. However, more expensive alloys generally need to be used can be used, and the differences in the properties of the two resistor elements make calibration more difficult.

Under certain circumstances, an electric current is allowed to flow in the resistance elements, which keeps them at a temperature which roughly corresponds to that of the exhaust gases, that is to say at 200 to 300 ^° C., for example

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the catalyst is constantly at its reaction temperature, and he always exercises his detection and dosing function off, even if the gas to be dosed is below the trigger temperature of the catalyst * - low temperature, for example during the Starting with a cold engine, the thermoelectric detector according to the above-mentioned patent application offers this ■ No advantage, but its catalyst was still like that trained to be in cold at low temperature Gas responded and took effect.

In the execution according to the patent application mentioned, the temperature difference that arose between the surfaces exerting a catalytic effect and the non-activated surfaces resulted in an electrical voltage that could be measured at the terminals of the thermocouples used. In the inventive device in which the two resistive elements form the branches of a balanced Wheatstone bridge generates the resistance difference, which is caused by the catalytic reaction at the one ^Wi: resistor expires, a stress in the diagonal measuring branch of the bridge . This voltage can also be used to control the motor, as stated in the patent application mentioned.

An exemplary embodiment of the invention is described below using the drawings, which illustrate the following:

Fig. 1 is an axial section through the detector in its arrangement between two exhaust pipe parts, sectioned along the line 1-1 in Fig. 2; ■

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2 shows a partial cross-section through the same detector, section along the line II-II in Fig. 1;

3 shows a schematic representation of the electrical circuit of the detector,

According to Figure 1, the detector is designed as an annular body 1 made of ceramic material, such as sintered, molten silicon oxide, which is a good electrical insulator; The inner diameter of the ring body 1 corresponds to that of the two pipe parts 2 and 3 through which the gas mixture, for example the exhaust gas, flows and which run out in flat annular flanges 4, inserted between the two sealing washers 5 and 6, made of asbestos for example, to seal the connection point are, while a wrapping 7 of asbestos is used for further sealing, which encloses the edge of the entire component, which is useful with brackets, for example with two half-caps 8 and 9, the tabs 10 (Fig. 2) are bent, or in another equivalent manner is held in place. An opening 11 is provided in one of the caps, through which the electrical lines 12, 13, Ik of the detector lead out; they are protected from contact with the sheet metal of the cap 9 by ceramic rings 15 which are placed in the opening 11.

The ceramic ring 1 is provided with circumferential grooves 16, between which notches 17 are provided, which are used to insert connecting wires for the resistance elements 18 and 19, which are placed with their ends in holes 20 lying on a diameter which open into a circumferential groove 16, from where the connecting wires 21 reach the outlet opening 11 and the output wires 12, 13, I ¹ +.

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To improve the insulation, the grooves 16 and the notches 17 can also be filled with an insulating material be.

The resistance probes 18 and 19 can be perpendicular to each other designed in the diameter planes of the exhaust pipe as shown in the figures; this arrangement enables their surface to be flushed with the gas. But you can also provide an arrangement according to which these probes parallel to each other in one and the same Transverse plane, are arranged symmetrically on both sides of an axial plane. In this arrangement there is one Exposed probe length, which is slightly less than the pipe diameter, but the result is a more compact design, because the two elements 18 and 19 lie in the same plane, so that the ring is made less strong and only one circumferential groove needs to be provided.

In Fig. 3 the circuit of the probe according to the exemplary embodiment in a Wheatstone ¹ see bridge is drawn, in which two ends of the resistance elements 18 and 19 are connected by a wire to a power source 22, while the other ends with outgoing wires 12 and It. are connected to balancing resistors 23 and 24, which in turn lead the bridge circuit to the second terminal of the current source 22. Der.Diagonalzweig the bridge may ^to: Need to be connected to an amplifier 25, which transmits the resulting analog voltage of the device to an electronic control circuit for the motor, as described .the already in the specified patent application.

This results in a very simple display and dosing system that can be implemented at moderate costs.

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device for a gas component, which when one of the resistance elements 18 or 19 breaks easily against a new organ can be exchanged, with the caps 8 and 9 being exchanged as a result Corrosion can have become unusable and that by twisting the tabs 10 with a simple pair of pliers can be removed and reinserted,

This differential measuring device is insensitive to variations in the ambient conditions, in particular Temperature changes and changes in gas composition, and the measurement is based only on that on the catalytic Reaction, thus only the temperature difference due to the presence of the gas to be detected The low thermal inertia of the resistance elements gives the device the property almost instantaneously to address, and the response time is large. properly 10 milliseconds.

The detector according to the invention can also be used for regulation can also be used by electronic injection systems to control the operation of an air pump, the for introducing what is necessary for the afterburning of the exhaust gases Oxygen only in the amount required to produce a stoichiometric mixture serves as described in the applicants' French patent application 71/46. The appearance of unburned Carbon monoxide or unburned hydrocarbons then automatically switch on the air pump, whereby the stoichiometric mixing ratio for the relevant engine speed is restored, since one is too rich. Mixture complete combustion of the substances mentioned is not possible.

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In this case, the detector according to the invention offers through an immediate, simple, but precise regulation of the exhaust gas mixture compensates for the lack of dosing accuracy of the combustion mixture ^ in the less sensitive but also less costly processes than electronic injection is.

Patent claims :

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Claims (1)

Patent to sayings Device for detecting and metering at least one component of a gas mixture by a catalytic Reaction, with two corresponding, temperature-dependent electrical resistance elements within the range filled by said gas mixture, the surface of the one resistance element a catalytic reaction which influences its temperature in the presence of the gas to be metered is exposed and be different from the value of the electrical resistance of the other resistance element Resistance value represents the analog electrical measured value for this component of the gas mixture, characterized in that wires made of resistance metal of the same type are provided as resistance elements are, one of which is provided with a catalyst coating. 2, detection device according to the preamble of claim 1, characterized in that the resistance elements are designed as thermistors made of sintered, porous material are, one of which is previously impregnated with a solution of the catalyst material. 3. Detection device according to the preamble of the claim 1, characterized in that the resistance elements 309840/1068 are designed as metal wires of different types, one of which is a catalytically active metal represents, the component of the gas mixture to be detected influencing the temperature of this metal wire. Evidence device according to the preamble of claim 1, characterized in that the change in electrical resistance caused by the catalytic reaction at the one of the two elements is caused by comparing the two electrical resistances in a Wheatstone's view Bridge is determined. 5. Evidence device according to the preamble of claim 1, characterized in that the resistance elements are traversed by an electric current which they up to at least to the initiation temperature of the catalytic reaction heated. 6 detection device according to the preamble of claim 1, characterized in that the gas mixture consists of the exhaust gas of an internal combustion engine, the one to be detected Gas component is carbon monoxide and the catalyst is an oxidation catalyst and that the resulting electrical analog measured value is transmitted to the electronic control device of an internal combustion engine in order to to ensure that it is continuously burned free of pollutants. 309840/1068 7. Detection device according to the preamble of the claim 1, characterized in that the resistance elements (18, 19) in a matching manner the bore cross an insulating ceramic ring body (1) which forms the detector body that the bore corresponds to the opening of the pipeline (2, 3) in which the gas mixture flows, and that the ring body (1) between two ring flanges (M-) with sealing rings (5, 6) is switched on, with brackets (8, 9) the stability ensure the arrangement. 8. Detection device according to claim 7, characterized in that the ceramic ring body (1) at its Has circumferential annular grooves (16), open into the receiving openings (20) for the resistance elements (18, 19) and the connecting lines (21) for the resistance elements - take up. 9. Detection device according to claim 8, characterized in that the conductors (21) receiving annular grooves (16) are filled with an electrically insulating material. 10. Detection device according to claim 7, characterized in that the holders (8, 9) for the recording of the body (1) of the detector are designed as half-caps made of sheet metal, which enclose the ring flanges (4) and are held together with tabs (10) which are nested and are bent. 309840/1068 11. Detection device according to the preamble of the claim I, characterized in that the gas mixture consists of the exhaust gas from an internal combustion engine that the gas component to be detected is carbon monoxide and the catalyst is an oxidation catalyst represents, and that the resulting electrical analog measured variable the operation of an air pump controls the conditions for a stoichiometric Restores mixture in the exhaust gas. The] patent attorney 303840/1088