DE4300029A1 - Blood alcohol test appts. - Google Patents

Abstract

The appts. to test the alcohol content in blood has a dose chamber (14) with a fixed holding vol. capacity. An electronic or electro-mechanical pressure sensor (42) generates an electrical output signal at least when an upper threshold value is breached, to operate a change valve (28) connecting the dose chamber (14) to the measurement chamber (29) with its equalising flow path (38) to the ambient atmosphere to be opened in the function setting.An airstream injector (32) takes part of the expelled air from the filling of the dose chamber (14) as a drive stream. The function control valve (28) gives a selected link between the dose chamber (14) and the measurement chamber (29) or between the measurement chamber (29) and the injection chamber (31) of the air injector (32) to flush the measurement chamber (29) for a given time span, while the equalising path (38) is held open for the air expelled from the measurement chamber (29).

Description

The invention relates to an alcohol test device for a Determination of the blood alcohol content of a user a gas analytical determination of one in the Expira tion air of the user existing alcohol content an alcohol detector, one for the alcohol content characteristic electrical of the expiratory air Output signal generated in units of blood alcohol salary can be evaluated and displayed and with a metering device by means of which the alcohol detector for a defined period of time ΔT a defi the expired air mass flow can be exposed, wherein the metering device by blowing Expiratory air with this fillable dosing chamber like this like one on the filling status of the dosing chamber automatically responsive function control valve arrangement includes, once the dosing chamber be sufficient fills and thereby also a minimum overpressure in the Dosing chamber prevails, one from the dosing chamber one containing the detector with the surrounding atmosphere mosphere in communicable connection measurable chamber leading flow path releases in which the Detector of the expi used for the evaluation rationsluftstrom flowed and at the end of Test cycle again in their for filling the dosing chamber provided with expiratory air, the dosing Function position blocking against the measuring chamber switches back.  

An alcohol test device of this type is by obvious Prior use known in the Federal Republic of Germany become.

In the known alcohol test device, the dosing chamber by being vertically movable by a piston delimited interior of a cylinder into which the The user breathes in the expiratory air. The piston is sufficiently easily that it could be replaced by a rela expiratory air at a low pressure can be used. As soon as the piston a z. B. means a light barrier detectable upper end position has enough that a defined volume of recorded corresponds to the expiratory air, the switchover the function control valve arrangement on test operation solved in which the dosing chamber with the alcohol deodorant tector containing measuring chamber, which in turn a for Ambient atmosphere has open outflow channel, in communicating connection and that of the Do sierkammer previously expired air, which is under a defined excess pressure, which is caused by the Weight of the piston located above the air column is caused, as it sinks down, by the Measuring chamber is pushed through. This is supposed to guarantee be achieved within a defined time also span a well-defined amount of expiratory air is passed over the detector, which requirement there for is that the output signal of the detector, the ex certainly a time-integrating response behavior ten, is a sufficiently precise measure for that in the Ex  alcohol content contained in the air.

The well-known alcohol test device is due to its inso widely described structure and the result functioning with at least the following after parts affected:

The device must be adjusted very "vertically" because with the piston delimiting the dosing chamber gig sink and its sink rate is possible At least not due to friction effects or tilting the piston is affected. The cylinder must be after each Test cycle to be flushed with heated fresh air to prevent alcohol and / or moisture on its wall delimiting the dosing chamber can hit, which for one thing causes the sinking speed speed of the piston and / or the alcohol content of the expiratory air to be examined in the sense of a Increase could be affected. The period of time that you have to wait until the known alcohol testge advises for egg again after a test cycle NEN is ready for operation is therefore relative long. In addition, the known device is relative must be serviced frequently to ensure that the Device, even if it has been used improperly is, e.g. B. tobacco smoke has been blown min can also be reflected on the cylinder wall te, can work with sufficient accuracy. Beyond that to realize the well-known alcohol test device considerable technical effort - movable limitation  the dosing chamber, a ventilation and Heating device - required, which is also too relatively high hen manufacturing and operating costs.

The object of the invention is therefore a device of the gangs mentioned to create that without moving Parts gets by, so less maintenance is required and this with good measuring accuracy and low lower manufacturing costs.

This object is inventively characterized by nenden features of claim 1 solved.

Due to the design of the dosing chamber according to this, with a fixedly predetermined receiving volume, the filling state of which is detected by means of an electronic or electromechanical pressure sensor, which generates an electrical output signal at least when a first, upper threshold value P _S1 is reached, by switching the function control valve Order in which the metering chamber connecting to the measuring chamber and its compensation flow path to the ambient atmosphere to keep the functional position open is releasable, in combination with an air jet injector, which can be enforced as a propellant jet by a part of the expiratiops air flow generated for filling the metering chamber , wherein the func tion control valve arrangement in a to their do sierkammer - in test mode - with the measuring chamber connecting switching position alternative switching position connects the measuring chamber with the injection chamber of the air jet injector and mi At least for a period of time Δt which is sufficient for a rinsing of the measuring chamber, the open equalization path via which expiration air exits the chamber during test operation, good measuring accuracy is achieved, as well as a considerable simplification of the construction of the device as a whole. By using part of the user's expiratory air flow for the operation of the air jet injector used as a flushing pump, the technical effort otherwise required for a pump unit is eliminated. The alcohol test device according to the invention can be operated largely maintenance-free and is obviously not in need of adjustment due to its arrangement in the room.

Laying down on a preparatory rinse and Follow the filling operation of the measuring chamber or the dosing chamber the measuring time period ΔT can be easily by means of one on the onset of the pressure sensor output signal appealing timing element, which after a de defined, fixed or adjustable predetermined measuring time span a switchover of the function control valve arrangement conveyed in their functional state in which the Dosing chamber against the measuring chamber is shut off again.

One of the function of such a timer analog function of the metering device of the alcohol test device can also be achieved in that the pressure sensor generates an output signal which is in a monotonic relationship with the pressure in the metering chamber, from whose comparison with that for the upper threshold value P _S1 and a signal level characteristic of a lower threshold value P _S2, the output signals for the beginning and end of the measuring period ΔT can be obtained.

The function control valve arrangement is in the simplest Design using a 3/2-way valve th measuring current control valve realized in its a functional position, preferably its basis tion, the metering chamber shuts off against the measuring chamber and this one with one to the injection chamber of air connecting flow injector leading flow path and in its other functional position, preferably ner switch position, the dosing chamber with the measuring chamber connects and this against the injection chamber shut off the air jet injector. By means of this measurement Flow control valve are the basic functions of the Alko Holtestgeräts, namely filling the dosing chamber, measuring Operation and flushing of the measuring chamber possible.

However, it is useful if the function control valve arrangement additionally a 2/2-way valve formed, controllable valve comprises, in one of which Functional position, preferably its basic position, the compensating flow path of the measuring chamber against the order cordoned off and in the other Functional position, preferably its switching position, which is a connection between the measuring chamber and the order compensating flow path conveying the atmosphere  is released, so that only in the measuring and rinsing operated the measuring chamber with the ambient atmosphere in communicating connection. Basically can the function control valve assembly pneumatically Druckge controls and with the help of a mechanical timer be realized.

In a preferred, technically advantageous Ge are the measuring current control valve and also that further controllable, designed as a 2/2-way valve Valve designed as solenoid valves by off control signals of an electronic control unit are erable, the output signals as the input signals to monitor the pressure in the dosing chamber provided pressure sensor and the output signals of the Alcohol detector are supplied.

Through a between a measuring current output of the dosing chamber and the dosing chamber-side measuring current connection of the measuring current control valve switched throttle with adjustable flow resistance can be easily the air mass flow can be set within of the measuring period ΔT through the measuring chamber that should.

To the dosing chamber in preparation for a measurement with the expiratory air of the respective user To be able to fill, it is provided that the dosing mer has an air outlet with a throttle preferably adjustable flow resistance and / or  a controllable valve that has a blocking position and a Flow position has a connection with the reverse balance flow path imparting the atmosphere is connected or connectable, such Valve expediently designed as a solenoid valve whose basic position is its flow position, in the expiratory air blown into the dosing chamber can flow through the dosing chamber while the measuring flow control valve still in its the metering chamber against the measuring chamber blocking basic position is. This to shut off the dosing chamber against the Ambient atmosphere exploitable solenoid valve is for Initiation of pressure build-up in the dosing chamber an output signal of the electronic control unit of the Dosing device can be switched to its locked position, in a particularly advantageous design of the alcohol test device by the output signal of a flow meter guesses which one for the at the outlet of the dosing chamber characteristic volume or mass flow electrical output signal generated in the elek tronic control unit of the metering device is subject to integrating processing, such that if the temporal integral of the output signal the flow meter reaches a threshold, the magnet downstream of the outlet of the metering chamber valve is switched to its locked position.

It is particularly advantageous if that of an expi ration air input of the alcohol test device to the Expira tion air inlet of the metering chamber leading expiration  air flow path by means of an inlet control valve can be locked and released, such that the user expiratory air blown into the dosing chamber can flow back to the input of the test device. This function is preferred by a check valve a simple flutter valve can be realized, the due to relatively higher pressure at the expiratory air inlet of the alcohol test device as in its dosing chamber Opening direction and due to relatively higher pressure in the Dosing chamber is applied in the reverse direction. The Be filling the dosing chamber with the Ex to be examined pirating air can then be used in several Exhale breaths take place.

Furthermore, it is advantageous if, alternatively or in addition to one designed as a check valve Inlet control valve, as a 2/2-way solenoid valve Inlet control valve is provided, by means of which the Dosing chamber inlet can be shut off, e.g. B. if that Pressure sensor output signal indicates that the measuring process can use what by controlling the magnet valve reliably prevented in its locked position becomes that after the onset of the measuring time interval ΔT Expiratory air is blown into the dosing chamber can.

For security reasons, it is especially when the detector against excessive alcohol concentrations is sensitive, as is usually the case, useful if the from the expiratory air inlet of the  Test device leading to the air inlet of the dosing chamber Flow path equipped with a liquid sensor is one of the electronic control units of the Do siereinrichtung supplied electrical output signal generated when in the air inlet of the metering chamber leading flow path liquid has reached, so that by the output signal of the liquid sensor Abort of the test phase - by blocking the intake tax valve and / or the measuring current control valve - trigger is cash.

In a preferred design of the alcohol test device provided that the from the expiratory air input of the Ge lead to the expiratory air inlet of the dosing chamber de Flow path via an inlet throttle with preference adjustable flow resistance leads, whereby a time because of the storage effect of the throttle chamber Delay in the pressure rise in the throttle chamber is aimed at building pressure in the same, as it were "smoothes" and the setting of defined pressure ratios favor in the dosing chamber.

According to a possible design of the alcohol test device the air jet injector is preferably via a Dros sel with the dosing chamber pneumatically shuttered in series tet and arranged downstream of this. This design the alcohol tester is e.g. B. possible if that Volume of the throttle chamber is significantly smaller when she came into the throttle in an expiratory breath inflatable air volume.  

In an alternative design of the alcohol test device is the air jet injector for the pneuma dosing chamber table connected in parallel, with between the branch from where the Injek torsion from the expiratory air flow path leading to the Dosing chamber leads, goes out, and the air jet injection Tor a current divider choke with preferably setting barem flow resistance is switched. This shape device of the alcohol test device is particularly suitable if the dosing chamber to a much larger opening volume is designed.

If in the design for a small volume of the metering chamber this is between 100 cm ³ and 1000 cm ³ , preferably around 250 cm ³ , the metering chamber can be formed by a serpentine or spiral-shaped hose or pipe section, it being particularly advantageous , if the measuring stream outlet is geometrically arranged in the immediate vicinity of the expiratory flow inlet of the metering chamber, so that a relatively small amount of expired air is sufficient for air to be at the measuring stream outlet of the metering chamber with the "correct", ie in the next test cycle There is test air to be analyzed.

If the dosing chamber is designed for a relatively large intake volume between 1000 cm ³ and 5000 cm ³ , it is useful if after an initial rinsing phase of the dosing chamber the outlet valve controls can be shut off and the dosing chamber inlet through a check valve against the expiration air inlet of the Device can be locked so that the dosing chamber can be filled with the expiratory air to be examined in several expiration passes.

Because the spatial design of the dosing chamber is fixed is given, a temperature control device, by means of which stabilize the dosing chamber operating temperature bar, expediently at a value of the tempera which is slightly higher than the temperature of the Expira tion air, housed inside the dosing chamber wherever there is a particularly good heat exchange with the inflowing expiratory air is possible. By such a temperature control device can condense the alcohol from the expiratory air effectively avoided and thereby ensure that the alcohol content of the expiratory air flowing to the detector is like the one flowing into the dosing chamber Air, which increases the measuring accuracy of the alcohol test device good is coming.

Depending on the type of alcohol used for the test device detectors it can also be useful if the measuring chamber is provided with a temperature control device, by means of which the temperature at which the alcohol detector is stabilized to a value, by at least about 10 °, preferably by 20 to 30 ° K is higher than the temperature of the expiratory air or the temperature value to which the dosing chamber stabilizes  is.

Through such temperature stabilization devices can have a constant sensitivity to alcohol detector and a reduction in recovery Periods of time can be achieved between two other measuring cycles have to be waited for.

To achieve a consistently good sensitivity speed of the alcohol detector, it is also advantageous if which connects the measuring chamber with the surrounding atmosphere Ending compensation flow path with an air filter e.g. B. is provided an activated carbon filter, in particular which absorbs volatile organic substances which otherwise an additional alcohol content " could ".

Further details of the alcohol test according to the invention devices result from the following description two embodiments with reference to the drawing. It demonstrate

Fig. 1 shows an alcohol tester according to the invention with egg ner connectable to an alcohol detector Do sierkammer and with the dosing chamber pneu matically connected in series Luftstrahllinjek tor for rinsing a measuring chamber containing the alcohol detector ent, in a schematically simplified block diagram representation and

Fig. 2 is a functionally analogous device to the alcohol test device of FIG. 1 with the air jet injector connected pneumatically in parallel to the dosing chamber, in a position corresponding to FIG. 1.

The total designated 10 in FIG. 1 alcohol testing device is intended to be able to determine a blood alcohol content in a simple and safe manner by analyzing the expiratory air of an alcohol consumer.

The alcohol test device 10 works on the principle that within a defined measuring period T an electronic gas detector 11 , which responds to alcohol in the gaseous state in the air, a defined air flow containing an unknown alcohol content - in the gaseous state - exposed is, this alcohol detector 11 generates a voltage output signal, the level of which correlates uniquely with the alcohol content, for. B. is proportional to this.

This output signal is fed to an electronic control and evaluation unit 12 , which determines the alcohol content of the user's exhaled air from a time-integrating, processing of the output signal of the alcohol detector 11 and displays it in the usual alcohol percentage. A related digital display is designated 13 .

The central functional element of the alcohol test device 10 is a metering chamber 14 , the volume of which corresponds to a fraction of approximately 1/10 to 1/4 of the air volume that a user absorb through a deep breath and into or through the metering chamber 14 in an uninterrupted expiration process can blow it through. To use the alcohol test device 10 , the user uses a disposable mouthpiece 16 which can be fitted close to an expiratory air inlet 17 of the device housing, which is not shown in the rest. The leading from the expiratory air input 17 of the device 10 to the expira tion air inlet 18 of the metering chamber 14 , designated overall by 19 air inlet path comprises a pneumatic series connection of a z. B. as Flatterven til formed input check valve 21 and an input throttle 22 with adjustable Strömwi resistance, which is connected between the input check valve 21 and the air inlet 18 of the metering chamber 14 .

At an (expiration) air outlet 23 of the metering chamber 14 , via which 10 air can flow out of the metering chamber 14 during operation of the alcohol test device, an outlet throttle 24 is connected, the flow resistance of which is also adjustable in the special embodiment shown.

Furthermore, the flow chamber 14 has a measuring current output 26 which can be connected to a measuring chamber via a measuring current control valve 27 of a function control valve designated 28 overall, in which the alcohol detector 11 is arranged. This measuring flow control valve 27 is formed in the particular embodiment shown as a 3/2-way valve, in its basic position 0 the measuring chamber 29 is blocked against the sierkammer 14 , but instead communicates with the injection chamber 31 of an air jet injector, generally designated 32 is connected, the sen driving nozzle 33 to the output side of the between the air jet injector 32 and the air outlet 23 of the Do sierkammer 14 connected outlet throttle 24 is connected, and the catch nozzle 34 is open to the ambient atmosphere.

From this basic position 0 is the Meßstrom-Steuererven valve 27 , which is designed in the illustrated embodiment as a solenoid valve, by controlling its control magnet 36 with an output signal of the electronic evaluation unit 12 in its excited position I controllable, in which the measuring current output 26 of the Doier chamber 14th - Via the flow path 37 of the measuring current control valve 27 - is connected to the measuring chamber 23 , which is now blocked against the injection chamber 31 of the air jet injector 32 . In the functional position I of the measuring flow control valve 27 , therefore, a partial air flow of the expiration air flow entering the air inlet 18 of the metering chamber 14 can flow into the alcohol detector 11 and exit via a total flow flow path, designated 38 , from the measuring chamber 29 into the atmosphere surrounding the device 10 .

Between the measuring current outlet 26 of the metering chamber 14 and the metering chamber-side measuring current connection 39 of the measuring current control valve 27 , a measuring current throttle 41 is connected, the flow resistance of which is also expediently adjustable.

Furthermore, a pressure sensor 42 is provided, which is required for the purpose of explanation as an electronic or electromagnetic switch, which generates an electrical output signal from a minimum value P _S1 of the pressure prevailing in the flow chamber 14 , which is fed to the electronic evaluation unit 12 and Start of the measurement time interval ΔT triggers within which the alcohol test device 10 operates in the detection mode. In the illustrated, specific embodiment, the pressure sensor 42 is designed as a pressure difference sensor, the output signal of which, according to the level, is a measure of the difference in the pressures in the metering chamber 14 and in the injection chamber 31 of the air jet injector 26 during operation of the device 10 are given. The alcohol test device 10 is further provided with a total of 43 Temperiereinrich device, by means of which the temperature in the Do sierkammer 14 can be stabilized to a value around 37 ° C, ie the normal value of the body temperature of the user, in contrast, the expiratory air temperature somewhat lower is. The temperature control device 43 is represented schematically in the drawing by a temperature sensor 44 and a resistance heating coil 46 , the heating current of which can be regulated by means of the electronic evaluation unit 12 such that stable temperature conditions in the do sierkammer 14 result after a relatively short time, the prerequisite for whose operational readiness. The temperature control sensor 44 provided for this purpose is designed as an electronic sensor which generates an electrical output signal supplied from the evaluation unit 12 , which is a direct measure of the temperature prevailing in the metering chamber 14 .

The alcohol test device 10 , explained in terms of its structure, conveys the following functions in test operation:

After a certain period of time has elapsed after the alcohol test device 10 has been switched on, within which stable temperature conditions in the metering chamber 14 have been set, z. B. by lighting up an indicator lamp 47 indicates the operational readiness of the alcohol test device 10 .

From now on, the user can blow air into his device 10 via "his" mouthpiece 16 . At the beginning of such a test process, the measuring flow control valve 27 is in its illustrated basic position 0 , in which the measuring chamber 29 of the alcohol detector 11 is blocked against the metering chamber 14 . As soon as the pressure created by blowing expiratory air into the metering chamber, which is higher than the atmospheric ambient pressure, reaches the minimum value P _{S1 mentioned} and the pressure sensor 42 emits its characteristic output signal, which may be the case at time t ₀ , The measuring current control valve 27 is switched to its function position I, which is alternative to the basic position 0 , in which now - via the further measuring current choke 41 - alcohol containing charged expiration air flows to the measuring chamber 29 of the alcohol detector 11 and via the compensating flow path 38 from the measuring chamber 29 flows out, the detector 11 is flowed around by this breathing air and generates a characteristic voltage output signal for the alcohol concentration in this expiratory air. After the measurement period ΔT has elapsed at time t ₁ , the duration of which is controlled by the electronic evaluation unit 12 , the measurement current control valve 27 is switched back to its basic position 0 by an output signal from the electronic control unit 12 , in which now more while the user "blows on" the measuring chamber 29 of the alcohol detector 11 is shut off from the metering chamber 14 , but is communicatively connected to the injection chamber 31 of the air jet injector 26 . The air jet injector 32 now acts as an air jet pump, which is operated with the expiratory air flow as the motive air flow and generates a negative pressure in the measuring chamber 29 of the alcohol detector 11 , as a result of which is now "fresh", ie not loaded with alcohol, via an air supply Air filter 48 of the equalization flow path 38 flows into the measuring chamber 29 and via the flow path 50 released in the basic position 0 of the measuring flow control valve 27 to the injection chamber 31 of the air jet injector 32 , whereby the detector 11 is “flushed” with fresh air, and the measuring chamber 29 is prepared for the next measuring process.

The measuring period .DELTA.T is dimensioned sufficiently short that the user still has a sufficient air supply in his lungs at the end of the measuring period .DELTA.To continue to blow until an effective cleaning of the measuring chamber 29 is reached. It is useful here if a signal presented to the user, which indicates when he can stop blowing, is only generated when, after the pure measuring time span ΔT has elapsed, a flushing time span Δt has also expired, within which the measuring chamber 29 is completely cleaned of air contaminated with alcohol.

As an alternative or in addition to the pressure sensor 32 , a volume flow sensor 49 connected between the air jet injector 26 and the breathing air outlet 19 can also be provided, as indicated by dashed lines, which is designed in a special design as an NTC resistor, which is formed by the Breathing air flow is cooled and emits a characteristic electrical output signal for its resistance value, which is fed to the electronic evaluation unit.

In the case of a realization of the volume flow sensor as an NTC resistor, this is by means of a heating device, not shown, for. B. a resistance heater can be heated to a temperature that is significant, e.g. B. is 20 ° to 40 ° higher than the - Gere applicable - temperature at which the metering chamber 14 will keep ge. Also with the help of such an NTC-Wi resistance, a liquid sensor can be realized which, seen in the flow direction of the breathing air of the user, is arranged between the breathing air input 17 of the device and the input throttle 20 of the metering chamber 14 . This fluid sensor 51 generates an output signal by which the alcohol test device is "switched off" 10, as it, when in the alcohol testing device instead of breathing air liquid through the mouthpiece 16 reaches 10, which because of a so einherge Henden high moisture concentration in a blown Air could damage the alcohol detector 11 .

If, as seen for the embodiment of FIG. 1 before, the receiving volume of the metering chamber 14 is small and, for example, is only 250 cm ³ , the metering chamber 14 can , as indicated by dashed lines, be formed by a coil or coil, the measuring current output 26 is arranged geometrically in the immediate vicinity of the expiration air inlet 18 . This Ge design of the measuring chamber 14 is very favorable in terms of purging, since a boundary layer region, at which, from a previous test cycle, the air-alcohol mixture still present in the metering chamber 14 mix with the air-alcohol mixed gas to be analyzed in the subsequent measuring cycle could be very small and the more expiration air is blown into the metering chamber 14 for the new test cycle, the more it is "pushed" away from the measuring current outlet 26 of the metering chamber. The preparation time of the alcohol test device 10 for a subsequent test cycle is therefore advantageously short.

To explain further variants of the alcohol test device according to the invention, reference should now be made to the relevant details of FIG. 2, which shows an alcohol test device 10 'which is functionally analogous to the alcohol test device 10 according to FIG. 1 and largely also analogous the same components as this one. To the extent that functional elements of the alcohol test device 10 'according to FIG. 2 are given the same reference numerals as the functional elements of the alcohol test device 10 according to FIG. 1, this is intended to indicate the design and functional equality or analogy of these elements and also the reference the description given with reference to FIG. 1 include the same. The explanation of the alcohol test device 10 'according to FIG. 2 is therefore only limited to the differences between it and the test device 10 according to FIG. 1:

For the alcohol test device 10 'it is assumed that its metering chamber 14 ' to a larger volume of z. B. 1000 cm ^{3 is} designed. Next is the Ex pirationsluft input 18 of the metering chamber 14 'leading air passage path 19 by means of a 2/2-way solenoid valve designed inlet control valve 52 , controlled by output signals from the electronic control unit 12 , can be blocked and released. This inlet Steuererven valve 52 is the expiration air input 18 of the metering chamber 14 'immediately upstream. Its basic position 0 is the flow position.

Also from the air outlet 23 of the metering chamber 14 'out going into the ambient atmosphere leading compensation flow path 53 is by means of a 2/2-way solenoid valve designed outlet control valve 54 of the radio control valve assembly 28 ' controlled lockable and releasable. The basic position 0 of this, in turn, by output signals from the electronic control unit 12 to controllable outlet control valve 54 is its flow position.

The function control valve assembly 28 'of the alcohol test device 10 ' further includes a 2/2-way solenoid valve also formed inlet / outlet control valve 56 , by means of which, in turn controlled by the output signals of the electronic control unit 12 leading from the measuring chamber 29 to the ambient atmosphere Compensating flow path 38 can be released and blocked. The basic position 0 of this inlet / outlet control valve 56 is its blocking position. This inlet / outlet control valve 56 is only switched over to the flow position I during the measuring period ΔT and the flushing duration Δt of the measuring chamber. It prevents by blocking the equalization flow path 38 that polluted ambient air can enter the measuring chamber 29 through this.

The air injector 32 is pneumatically connected with the alcohol test device 10 'according to Fig. 2 to the dosing chamber 14' in parallel, the branch-off point 57, where the for driving nozzle 33 of the air injector 32 perform de blowing air flow supply line branches 58 from the expira tion air-intake path 19 , between the input check valve 21 and the input throttle 22 , seen in the direction of flow, is arranged and the motive air flow supply line 58 is provided with a flow divider throttle 59 .

In typical operation, the alcohol test device 10 'works as follows:

After the user in the introductory phase of a test cycle; through the dosing chamber 14 'enough expira tion air, the amount of which can be detected by means of the volume flow measuring device 49 , has blown through, so that it can be assumed that the dosing chamber 14 ' only expiratory air ent of the current user, is triggered by an air volume-characteristic output signal of the volume flow measuring device 49 , which switches the metering chamber 14 'downstream outlet control valve 54 into its blocking position I, after which the pressure increase begins in the metering chamber 14 '. As soon as the pressure in the metering chamber 14 'reaches the switching threshold p _S1 , the metering chamber 14 ' upstream inlet control valve 52 is switched to its blocking position I, after which the user can no longer blow further expiratory air into the metering chamber 14 '. Simultaneously with the switching of the inlet control valve 52 or shortly thereafter, the measuring flow control valve 27 is switched into its functional position I connecting the metering chamber 14 'with the measuring chamber 29 and at the same time the inlet / outlet control valve 56 in its flow position I controlled so that now - for the measurement period AT - expiration air from the metering chamber 14 'to the detector 11 and can flow out through the compensating line 38 . After the measuring time period ΔT, the measuring current control valve 27 switches back to its basic position 0 , in which the measuring chamber 29 is now connected to the injection chamber 31 of the air jet injector 32 . The measuring chamber 29 is now flushed with fresh air via the still open on / off control valve 56 , while the user continues to blow expiratory air through the air jet injector 32 . After the flushing period .DELTA.t fall the 2/2-way solenoid valves 52 , 54 , 56 of the func tion control valve assembly 28 'back to their basic positions, whereupon the user is signaled by a display signal that the test process including the measuring chamber flushing is finished. The alcohol test device 10 'is ready for use again after a short recovery time.

The alcohol test equipment 10 and 10 'according to FIGS. 1 and 2 of the respective metering chamber 14 or 14 from the measured current output 26' of measuring current-control valve beginning on the Meßstromdrossel 41 for dosierkammerseitigen measuring current terminal 39 27 leading flow path before Be the measurement cannot be flushed and therefore contains - before the start of the measurement - expiratory air from a previous user, which could lead to a measurement error when measuring the alcohol content of the expired air from a subsequent user.

Such a measurement error can, however, be kept negligibly small in that the receptacle of this flow path is structurally very small against that of the metering chamber 14 or 14 '.

If this is not feasible for constructional reasons, what is not specifically shown, the function control valve arrangement 28 or 28 'can be modified with little additional wall so that said flow path 26 , 41 , 39 before the start of the measurement, that is, before the alcohol detector 11 , the expiration air of the current user is fed, with whose expiration air can be flushed.

Claims (26)

1. Alcohol test device for determining the blood alcohol content of a user from a gas analytical determination of an alcohol content present in the expiratory air of the user with an alcohol detector which generates a characteristic electrical output signal for the alcohol content of the expiratory air, which can be evaluated in units of the blood alcohol content and for Display can be brought and with a metering device by means of which the alcohol detector can be exposed to a defined expiratory air mass flow for a defined period of time ΔT, the metering device being a metering chamber that can be filled with this by blowing in expiratory air and a function control valve arrangement that responds automatically to the filling state of the metering chamber comprises, once the dosing chamber is filled sufficiently and thereby also a minimum overpressure in the dosing chamber, one from the dosing chamber to egg ner containing the detector, with the reverse Exercise atmosphere in the communicating connection of the measuring chamber leads to the leading flow path, in which the detector is blown by the expiratory air flow used for the evaluation and at the end of the test cycle again into the dosing chamber against the measuring chamber, which is intended for filling the dosing chamber with expiratory air switches back to the blocking functional position, characterized in that the metering chamber ( 14 ; 14 ') has a fixed predetermined receiving volume that an electronic or electromechanical pressure sensor ( 42 ) is provided which generates an electrical output signal at least when a first, upper threshold value p _S1 is reached, by switching the function control valve arrangement ( 28 ; 28 ') In which the metering chamber ( 14 ; 14 ') with the measuring chamber ( 29 ) connecting and whose compensating flow path ( 38 ) to the ambient atmosphere keeping de functional position can be triggered that an air jet injector ( 32 ) is provided, the of a part of the expired air flow generated to fill the metering chamber ( 14 ; 14 ') can be passed as a propellant jet, and that the function control valve arrangement ( 28 ; 28 ') in one of the metering chamber ( 14 ; 14 ') with the measuring chamber ( 29 ) connecting switching position alternative switching position, the measuring chamber ( 29 ) with the injection chamber ( 31 ) of the air jet jector ( 32 ) ver binds and at least for a period of time .DELTA.t, which is sufficient for a flushing of the measuring chamber ( 29 ), the compensating flow path ( 38 ) via the expiration air in the test chamber from the measuring chamber ( 29 ) emerges, keeps open. 2. Alcohol testing device according to claim 1, characterized in that a responsive to the onset of the pressure sensor output signal timer is provided which, after a defined, fixed or adjustable predetermined measuring time period .DELTA.T to switch the function control valve assembly ( 28 ; 28 ') in conveys a functional state in which chem the metering chamber ( 14 ; 14 ') is blocked against the measuring chamber ( 29 ). 3. Alcohol test device according to claim 1 or 2, characterized in that the pressure sensor ( 42 ) generates a standing with the pressure in the metering chamber ( 14 ; 14 ') in a mo notons relation output signal, from its comparison with the for the upper threshold lenwert P _S1 and a signal level characteristic of a lower threshold value P _S2 , the output signals for the beginning and end of the measuring period ΔT can be obtained. 4. Alcohol test device according to one of claims 1 to 3, characterized in that the function control valve assembly ( 14 ; 14 ') comprises a 3/2-way valve formed measuring current control valve ( 27 ) in its one functional position, preferably its basic position , the metering chamber ( 14 ; 14 ') shuts off against the measuring chamber ( 29 ) and connects it with a flow path leading to the injection chamber ( 31 ) of the air jet injector ( 32 ) and in its other functional position, preferably its switching position (I), the metering chamber ( 14 ; 14 ') connects to the measuring chamber ( 29 ) and blocks it against the injection chamber ( 31 ) of the air jet injector ( 32 ). 5. Alcohol testing device according to one of claims 1 to 4, characterized in that the function control valve arrangement ( 28 ; 28 ') comprises a further, as a 2/2-way valve ( 56 ) designed, controllable valve, in its one functional position, preferably as its basic position ( 0 ), the equalization flow path ( 38 ) of the measuring chamber ( 29 ) against the ambient atmosphere and in its other functional position, preferably its switching position (I), the mediating between the measuring chamber ( 29 ) and the surrounding atmosphere compensating Flow path ( 38 ) is released. 6. Alcohol testing device according to claim 4 or 5, characterized in that at least the measuring current control valve ( 27 ) and preferably also the 2/2-way valve ( 56 ) is designed as an electrically controllable (s) Magnetven valve (s) , which is / are controllable by output signals of an electronic control unit ( 12 ), which, as input signal (s), the output signal (s) of the pressure sensor ( 42 ') provided for monitoring the pressure in the metering chamber ( 14 ; 14 ') ) and the output signals of the alcohol detector ( 11 ) are supplied. 7. Alcohol test device according to one of claims 1 to 6, characterized in that between a measuring current output ( 26 ) of the metering chamber ( 14 ; 14 ') and the metering chamber-side measuring current connection ( 39 ) of the measuring current control valve ( 27 ) has a throttle ( 41 ) with preferably adjustable flow resistance is switched ge. 8. Alcohol test device according to one of claims 1 to 7, characterized in that the metering chamber ( 14 ; 14 ') has an air outlet ( 23 ) to which via an outlet throttle ( 24 ) with preferably adjustable flow resistance and / or a controllable valve ( 54 ), which has a blocking position and a flow position, a connection which communicates with the environment-compensating flow path ( 53 ) is connected or can be connected. 9. Alcohol testing device according to claim 8, characterized in that the provided for blocking the air outlet ( 23 ) of the metering chamber ( 14 ') outlet control erventil ( 54 ) is designed as a 2/2-way solenoid valve, the basic position ( 0 ) its one is a test process introductory rinsing phase of the metering chamber ( 14 ') associated flow position, in which the expiratory air, which the user blows into the Dosierkam mer ( 14 '), flows through it, while the measuring flow control valve ( 27 ) is still in its Doier chamber ( 14 ') against the measuring chamber ( 29 ) lock the basic position, and its excited position is its blocking position (I), in which it is at the latest when switching the measuring current control valve ( 27 ) in which the metering chamber ( 14 ') with the functional position connecting the measuring chamber ( 29 ) can be switched. 10. Alcohol testing device according to claim 8 or 9, characterized in that the shut-off of the air outlet ( 23 ) of the metering chamber ( 14 ') utilizable from lass control valve ( 54 ) for initiating the pressure build-up in the metering chamber ( 14 ') by Output signal of the electronic control unit ( 12 ) can be switched into its blocking position (I). 11. Alcohol test device according to one of claims 8 to 10, characterized in that a flow meter ( 29 ) is provided which for the at the air outlet ( 23 ) of the metering chamber ( 14 ; 14 ') emerging volume or mass flow characteristic electrical output signal cal generated. 12. Alcohol tester according to claim 11, characterized in that the electronic control unit ( 12 ) of the metering device from an integrating processing of the output signal of the flow meter ( 49 ), the control signal for the control of the metering chamber ( 14 ; 14 ') downstream outlet- Control valve ( 54 ) in its locked position (I) he testifies. 13. Alcohol test device according to one of claims 1 to 9, characterized in that from an expira tion air input ( 17 ) of the alcohol test device ( 10 ; 10 ') to the air inlet of the metering chamber ( 14 ; 14 ') leading air flow path ( 19th ) can be shut off and released by means of an inlet control valve ( 21 , 52 ). 14. Alcohol testing device according to claim 13, characterized in that the inlet control valve is designed as a return check valve ( 21 ), preferably as a flap valve, which by relatively higher pressure at the expiration air inlet ( 17 ) of the alcohol testing device ( 10 ; 10 ') than in the metering chamber ( 14 ; 14 ') in the opening direction and by relatively higher pressure in the metering chamber ( 14 ; 14 ') as the expiratory air inlet ( 17 ) of the test device ( 10 ; 10 ') is acted on in the reverse direction. 15. Alcohol testing device according to claim 13 or 14, characterized in that the inlet control valve ( 52 ) is designed as an in addition to a designed as a check valve inlet control valve ( 21 ) provided NES 2/2-way solenoid valve. 16. Alcohol test device according to one of claims 13 to 15, characterized in that the expiration air inlet ( 17 ) of the test device ( 10 ; 10 ') to the expiratory air inlet ( 18 ) of the metering chamber ( 14 ; 14 ') leading expiratory air Flow path ( 19 ) is equipped with a liquid sensor ( 51 ) which generates an electrical output signal supplied to the electronic control unit ( 12 ) of the dosing device when the flow path ( 14 ; 14 ′) leading to the expiration air inlet ( 18 ) of the dosing chamber ( 14 ; 14 ') 19 ) liquid has reached, with the output signal of the liquid sensor ( 51 ) - by blocking the inlet control valve ( 52 ) and / or the measuring flow control valve ( 27 ) - a break from the test phase can be triggered. 17. Alcohol testing device according to one of claims 1 to 16, characterized in that from the expiratory air inlet ( 17 ) of the testing device ( 10 ; 10 ') to the air inlet ( 18 ) of the metering chamber ( 14 ; 14 ') leading air flow path ( 19 ) via an input throttle ( 22 ) with preferably adjustable flow resistance. 18. Alcohol test device according to one of claims 1 to 17, characterized in that the air jet injector ( 32 ) with the metering chamber ( 14 ) is pneumatically connected in series and is arranged downstream of this. 19. Alcohol testing device according to one of claims 1 to 17, characterized in that the air jet injector ( 32 ) to the metering chamber ( 14 ') is pneumatically connected in parallel. 20. Alcohol testing device according to claim 19, characterized in that between the branch point ( 57 ) from which the propellant air supply line ( 58 ) of the injector ( 32 ) from the expiratory air flow path ( 19 ) leading to the metering chamber ( 14 ' ) leads, goes out, and the air jet injector ( 32 ) is connected to a flow divider throttle ( 59 ) with preferably adjustable flow resistance. 21. Alcohol testing device according to one of claims 1 to 20, characterized in that the volume of the metering chamber ( 14 ) is between 100 cm ³ and 1000 cm ³ , preferably around 250 cm ³ . 22. Alcohol testing device according to claim 21, characterized in that the metering chamber ( 14 ) is formed by a serpentine or spirally laid hose or pipe section, the measuring current output ( 26 ) of the metering chamber ( 14 ) geome metrically in the immediate vicinity of the expiratory air inlet ( 18 ) of the metering chamber ( 14 ) is arranged. 23. Alcohol testing device according to one of claims 1 to 20, characterized in that the volume of the metering chamber ( 14 ') between 1000 cm ³ and 3000 cm ³ be, wherein the air outlet ( 23 ) of the metering chamber ( 14 ') after an introductory Rinsing phase, the duration of which is adjustable, can be shut off in a valve-controlled manner and the metering chamber inlet ( 18 ) can be shut off at least by a non-return valve against the expiration air inlet ( 17 ) of the test device ( 10 '). 24. Alcohol testing device according to one of claims 1 to 23, characterized in that the metering chamber ( 14 ; 14 ') is provided with a temperature control device ( 43 ) by means of which the operating temperature of the Do sierkammer ( 14 ; 14 ') can be stabilized to a value , which is higher than the temperature of the expira tion air, which it has at the expiration air inlet ( 17 ) of the test device ( 10 ; 10 '). 25. Alcohol testing device according to one of claims 1 to 24, characterized in that the measuring chamber ( 29 ) is provided with a temperature control device by means of which the temperature at which the alcohol detector ( 11 ) is located can be stabilized to a value which is at least 10 °, preferably 20 ° to 30 ° K higher than the temperature of the expiratory air or the temperature to which the metering chamber ( 14 ; 14 ') is stabilized. 26. Alcohol test device according to one of claims 1 to 25, characterized in that the compensating flow path ( 38 ) connecting the measuring chamber ( 29 ) with the ambient atmosphere is provided with an air filter ( 48 ) which in particular absorbs volatile organic substances.