DE1052630B - Arrangement for the detection of admixtures, especially alcohol, in the exhaled air - Google Patents

Description

To detect small amounts of gas or steam in air or other gases, it is known to use the To pass air or the gas to be examined through a gas-binding agent, this in such a way is selected that the constituent 5 to be detected is enriched on this agent. It is there also known the amounts deposited on the enrichment agent by certain reactions to make them clearly visible with so-called detection reagents.

By measuring the amount of air examined and by measuring the reaction phenomena, which is usually based on a color comparison, the amount of substances to be detected can also be determined more or less precisely. This method can also be used for the determination of fog-shaped impurities. This procedure is usually carried out with the help of so-called test tubes. In a transparent tube containing them a mostly colorless enhancement agent such as silica gel od. The like., Either before L ^T ntersuchung in a certain way is prepared and the reaction solutions are added after the sampling. The test tube is connected to an air delivery device, such as a manually operated piston pump, with which the amount of air can be sucked through the test tube and its amount can be determined. In many cases, a certain air delivery speed must be maintained during pumping so that there is enough time for the enrichment or for the reaction in the test tube.

There is also a device for determining the alcohol content in the exhaled air known from consists of a rubber bag with a capacity of about 3 liters, on one side over a check valve is connected to a mouthpiece. The device user blows exhaled air through the mouthpiece into the rubber bag until it is full. The check valve prevents the Air through the mouthpiece.

A three-way piece is connected to the other side of the rubber bag. In one way there is one Glass tube switched on, in which a frit is inserted. This frit is one with a permanganate solution certain composition filled. Two pieces of pipe are connected to the other part of the three-way piece. In the first, an alcohol and water absorbent material is housed so that if the air is forced through, water and alcohol are retained from the air. The second pipe, that follows the first is filled with a carbonic acid absorbent material, such as. B. sodium hydroxide. The device is handled so that the person to be examined in the specified arrangement

for the detection of admixtures,

especially of alcohol,

in the exhaled air

Applicant:

Drägerwerk, Heinr. & Bernh. Dräger,
Lübeck, Moislinger Allee 53/55

Pushes amount of exhaled air into the rubber bag. The non-return valve prevents the air from flowing back. Then only the tube containing the permanganate can be connected to the three-way piece, while the other outlet remains closed. The air contained in the bag is then forced through the permanganate solution and a clock is used to determine the time until the permanganate solution is decolorized. The frit can be so constructed and have such a porosity and the rubber balloon have such a tension that a flow rate of not less than 800 cm ³ / min can be achieved. Then the permanganate tube is removed and the associated opening is closed. Then the other part of the three-way piece is opened and connected to the two further examination tubes, whereupon the compressed air is now pressed out of the bag through these tubes. About 2 liters of air should be available to slide through these pipes. The alcohol and water vapor are retained in the first tube. The carbon dioxide is absorbed in the second tube.

After the examination has been carried out, the two pipes are removed and in the laboratory in investigated in the following way. Due to the increase in weight of the second tube, the content of the examined Determined air in carbonic acid. The alveolar air content of the examined air can be determined from this determine. The examined air is composed of alveolar air and pendulum air. By determination The content of the alveolar air is determined by the carbon dioxide. The one retained in the first tube Alcohol is determined so that the Ger

809 769/20

3 4

hold the exhaled air to alcohol can be calculated that in any amount of outside air, i.e. not Auskann. From the calculated content of alveolar air allows breathing air to be sucked in.

Now by further calculating the content of the It is still a method of determining the

Determine alveolar air in alcohol. The well-known alcohol content of the exhaled air at which the driving initially has the disadvantage that 5 test subjects breathed deeply into a system of walls on the walls

of the press bag remains of the exhaled air or its washing bottles, their absorption inflow through the tap

Constituents remain. These remnants elude the bottom and a ground stopper for filling

Analysis and can on the other hand, the result of the fol- and emptying is suitable as long as breathes in until

falsify the measurements. So much for the test association - a standard solution of potassium permanganate

drive with the fritter tube is carried out, io is decolorized, after which the examiner on the spirometer

there is the further disadvantage that the speed only has to read off the amount of air breathed. Since the

with which the air to be examined is kept constant through the test tube - the amount of potassium permanganate

is printed, is not precisely determined. The gesture is the amount of air read on the spirometer

speed is initially from the purely accidental a direct measure of the amount of alcohol that is in the

The amount of force exerted by the hand when breathing air was present. This procedure is due

Compression of the bag dependent. The complicated device is only used in the laboratory

it also depends on the speed with which this is applicable. This procedure has the significant

Bag is squeezed by hand. As a result of the disadvantage that different amounts of air through the

the fact that the speed is not accurately directed depending on the devices

Determined and determinable, there is the possibility of 20 supposed alcohol content if a patient but

That the enrichment or conversion reaction exhales incompletely different amounts of air is also the

takes place constantly, so that an even approximately quantitative percentage of the alveolar air varies,

tative measurement is not possible. Finally, the alveolar air fraction changes with the amount of air

nor the disadvantage that a watch can be used for exhaled air. With the known method lets

got to. The known method is cumbersome in that the alcohol content of the alveolar air is not correct.

Carry out and determine blood-free for an easy and fast.

alcohol determination not suitable. The well-known advance is also a kolorimetrisch.es gas investigation direction is also known to be relatively complicated with the help of test tubes, built up and can only be used in connection with the facilities of a laboratory connected to a test tube. 3 <> sen, with the help of which the air to be examined is sucked through. There is also a device for determining the test tube. It is known for the breath alcohol content, which is basically based on the investigation of the carbon oxide content in air with the same method of determination. This device uses a silica gel, which consists of a mask with paint, which is soaked in a carbon chloride and ammonium molybdate. The shut-off valve is connected to an immersion pipe which is close to the 35 The speed of the investigated gas bottom of a sub-stream charged with liquid is kept so low that essentially a search vessel ends, so that the exhaled air, achieved complete absorption of the carbon oxide, passes through the liquid who have favourited sulfuric acid and per- will. It is also known to contain manganate in the inlet port. The color change in the suction pump becomes a narrowing, e.g. B. observed by a needle that ventilates during the oxidation of the alcohol, so that the speed is there. In this way, the alcohol content of the amount of air sucked through can be determined. This pre-breathed air can be determined. In this container direction is not suitable for examining the exhaled air via a shut-off valve and a non-return valve, since there is no guarantee that the valve via a three-way piece of a piston pump actually only closes exhalation, with the piston between the space - 45 air from the patient is sucked in,
The invention seeks to address the disadvantages of the known switched. To avoid measuring devices at the free end of the three-way piece and a simple one is connected via a further check valve and a procedure or a simple device to another shut-off valve, create a dip tube with which not only with certainty the fore gas opens into a container that with a dryness of any admixtures in which the center is filled. A container can be determined on this container via two breathing air, but also the concentration of approximately further shut-off valves.

closed, the one with a carbonic acid absorbent The invention relates to an arrangement for after means is filled. This device is used with white additives, such as alcohol, With the help of the air pump, exhaled air is sucked in, which is added to the exhaled air, which is connected to a test tube and a next flows through the permanganate solution. The bag is equipped with the air with certain Pretrial is then pressed by the air pump speed through the test tube, through the desiccant and in the carbonic acid absor- The invention consists in that in the direction of the ausbierenden Medium printed. From the weight gain air blown the test tube together first the latter can determine the content of the air under investigation in 60 volume-folded, inflatable measuring bags Carbonic acid and from it again the content of the sub-volume upstream and into the airway one sought air to be determined from alveolar air. Continued flow resistance determining nozzle switched on the amount of alcohol in the air under investigation is determined. The breathing bag can be made of rubber or synthetic material. From this, in turn, the content of the substance, preferably made of transparent plastic, be-alveolar air determine by carbon dioxide. These board members. The person to be examined presses on the direction has the same disadvantages as the previous one. Examination with lung force through exhaled air wrote known device. In addition, this front has the test device, such as the test tube direction the disadvantage that there is no guarantee that chen, in the breathing bag until it is filled. Through this With the device actually a sufficient amount is the amount of air that ge-alveolar air through the detection tube is sucked in. It is entirely possible 70 heads are determined. Furthermore, the

Claims (2)

switched nozzle also limits the air speed upwards, since practically only a certain exhalation pressure can be achieved with the human lungs. Finally, the arrangement forces the person to be examined to press exhaled air alone through the test tube in a certain amount. This guarantees that the exhaled air is not diluted with outside air. Another advantage is that the same amount of exhaled air is used in all examinations. Most of the test tubes used are designed so that the resistance of their filling does not exceed the resistance set by the nozzle itself. Otherwise, however, the dimensions of the test tubes or their fillings can be chosen as they are most favorable for the desired reaction. For the manufacture of the test tube, no further requirements relating to compliance with a certain resistance need to be met. In the drawing, an embodiment of the device with which the method according to the invention can be carried out is shown schematically. On the test tube 1, which is used, for example, to detect alcohol in exhaled air, the mouthpiece 2 is once placed, which the person to be examined puts into their mouth. The other side of the test tube 1 is inserted into the mounting piece 3 to which the breathing bag 4 is attached. This is made of plastic. The mounting piece 3 can also be made of plastic, for example by injection molding. In the mounting piece 3, the bore 5 is embedded, through which the air speed is determined. The bore is dimensioned, for example, in such a way that a test air speed of 1 liter / min is achieved at a pressure of about 40 and 50 mm water column. A certain tolerance can be taken into account, which should not be greater than ± 10 mm WS. The test tube can be designed or filled with such a material that its resistance at the specified air speed is approximately in the region of 20 mm water column. However, this value can be exceeded or not reached. When designing the test tube, its resistance value need only be taken into account within the specified limits, so that the fulfillment of the other conditions to be placed on the test tube is not made more difficult. The installation of the nozzle always ensures practically the same resistance, even if the test tubes are designed differently. The hole in the connector 3 into which the test tube 1 is inserted is designed so that the test tube is tight. The bore can be designed to be slightly conical for this purpose. If necessary, a sealing ring can also be inserted in the bore. The device is used in such a way that the person takes the test tube into your mouth with a completely flat, i.e. empty breathing bag 4 and then presses air through the test tube 1 and the nozzle 5 until the breathing bag 4 is filled. Patent claims: 1. Arrangement for the detection of admixtures, in particular alcohol, in the exhaled air with the help of a test tube and a bag, with the air at a certain speed is pushed through the test tube, characterized in that in the direction of the exhaled Air the test tube (1) determined an initially folded, inflatable measuring bag (4) Upstream of the volume and in the airway a nozzle (5) which determines the flow resistance is switched on. 2. Arrangement according to claim 1, characterized in that the measuring bag with a connecting piece is provided, in which the nozzle and a connection opening for inserting the test tube are housed. Considered publications:
U.S. Patents Nos. 2,591,691, 2,487,077, 2,062,785;
Archive for exp. Pathology and Pharmacology, Vol. 213, Pp. 37 to 43. 1 sheet of drawings © 809 769/20 3.59