DE4209200A1 - DEVICE FOR THE EXAMINATION OF GASES - Google Patents

Description

The invention relates to a device for examination of gases according to the preamble of claim 1.

The invention aims in particular air after Verun to investigate cleanings. The Vorrich invention tion is particularly helpful for examining air for ventilators.

It is often necessary to examine the air you breathe Quantities of the air components such as oxygen ascertain. With the term impurities everyone Designated components of the gas to be examined, the should be determined.

It is known to examine air, passing the air through it a glass detector tube flows that with a certain Reagent is filled. The reagent is chosen so that it  produces a visible response if a particular one Air pollution is present. With the known However, devices will use a separate detector tube for needed any contamination that was searched for becomes. The usual way to do this is to investigate air in sequence with each detector tube tie. As the examination parameters may require it conditions that the air is a detector tube for a period of time flowed through to 25 minutes, the examination is a long one process, which is the constant supervision of an operator son requires.

Furthermore, it is particularly necessary with breathing air systems nimble to check whether the system is adequate Air volume provides.

The invention is based on the object of a device to make available the type mentioned at the beginning, which is set once by an operator and all examinations for various impurities executes at the same time.

According to the invention, this object is characterized by the solved the part of claim 1.

The device according to the invention has an input for the gas to be examined, a plurality of investigative boxes channels through which the gas may flow, a distribution ler element through which all examination channels with the one are connected, the examination channels parallel are arranged to each other, a shut-off device in each examination channel so that each channel is independent of opened or closed in the other examination channels and a time mechanism that controls the opening  and closing time of each shut-off device checked. A barrier device is particularly suitable Magnetic valve.

Many standard test reagents are of this type fen that the gas to be examined for a set time must flow through the reagents. This period of time can vary from Vary reagent to reagent. Accordingly, the Invention that each investigation channel with a shut-off device is provided and each shut-off device in such a way is regulated by a time mechanism that a sub search channel is open for a set period of time and then closes.

The examination channels are advantageously verse with sockets into which standard detector tubes can be inserted NEN, so that the gas to be examined by the detector tube flows and then escapes into the atmosphere.

The input advantageously has a valve for regulating the Pressure on, so that the gas with a set pressure flows through the examination channels.

Each examination channel advantageously has points a throttle valve so that the volume gas flow for each channel can be regulated.

In the event that two or more investigation channels for Exams are used that are the same amount of time claim, it is within the scope of the invention that a only locking device opening and closing this Examination channels regulated.

In a preferred embodiment of the device  a flow for the investigation of low pressure gas Mungsmesser arranged parallel to the examination channels net, so that gas at the same time through the examination channels and the flow meter flows.

The fact that part of the gas flows through the stream flow meter flows while at the same time the investigation after contamination takes place is ensured represents that the gas flowing through the investigation channels is representative of the overall flow.

It is possible to determine a particular area of investigation Extend detector tube by using the same detector tube is used in two parallel examination channels, however, the flow rate and / or the duration of the Flow in a channel is larger or longer than in the other. Accordingly, a method according to the invention for examining gases using a Detector tube, in which two identical detector tubes arranged in two parallel examination channels, both Examination channels are flowed through simultaneously with gas and the gas flow rate in both investigation channels un is provided.

It should be noted that the device according to the invention a simple and easy to do investigation of a Gases allows that on a regular basis is feasible without ongoing monitoring would be required by an operator. The preparation device before the start of the investigation is a subject. The device monitors itself as soon as with the Investigation has been started.

The invention is illustrated below with reference to the FIG. Of the drawing using an exemplary embodiment.

Show it:

Fig. 1 shows a cross section through a measuring station for gas analysis,

Fig. 2 is a front view of an inventive device for examining gases and

Fig. 3 is a pneumatic circuit diagram of a device according to FIG. 2.

The device shown examines breathing air Contaminants, the air passing through a detector tube is directed.

Fig. 1 shows this examination method schematically. A detector tube 10 consists of a glass tube 12 which has a narrow neck 14 at each end. A gauze plug 16 and a reagent 18 are located within the detector tube 10 . The reagent 18 is visible through the transparent walls of the detector tube 10 .

In the manufacture of the detector tubes 10 , the necks 14 are usually closed in a sealed manner, so that the inside of a detector tube 10 is hermetically sealed. In this way, the reagent 18 is kept fresh. When the detector tube 10 is used to examine an air supply, the two ends of the necks 14 are broken off so that air can flow into one end of the detector tube and out of the other end. The detector tube 10 is then set incorporated in this state in a bushing 20 which forms a seal with the outer surface of the detector tube 10 via a sealing ring 22nd An air hose 24 is connected to the socket 20 so that the air flows through the detector tube 10 and then escapes into the atmosphere. The reagent 18 is retained in the detector tube 10 using the gas stopper 16 . The reagent 18 has the property that it undergoes a color change or other visible change in the presence of a certain impurity in the air. In some cases, the degree of color change indicates the size of the contamination. This is then measured using a standard color table. In other cases, the reagent 18 changes color continuously along the detector tube 10 and the extent of the contamination is measured using a scale printed on the detector tube 10 itself.

Typically, each detector tube 10 is used for an investigation which takes place at a certain flow rate and for a certain period of time. After one use, the detector tube 10 is thrown away.

Fig. 2 shows an apparatus according to the invention can be supplied in the six detector tubes 10 simultaneously breathing air. Furthermore, the volume flow of the air can be measured with this device. The device shown in Fig. 2 Darge is portable and can be transported to a place where breathing air is to be examined at various locations. The device has two alternative inputs: one at 30 for generator air and the other at 32 for regulated bottle air. A flow meter is shown at 34 . Six separate sockets 20 for the detector tubes 10 are arranged near the upper end of the device.

During operation, the detector tubes 10 are each inserted into a socket 20 and an air source is connected to one of the two inputs 30 , 32 . When the device is in operation, air flows in through one of the two entrances and out through the six detector tubes in the six sockets 20 . When the air flows in through the inlet 30 , it additionally flows through the flow meter 34 .

The operation of the device will be described in greater detail below with reference to FIG. 3 be.

The inputs 30 and 32 are both in connection with a slide valve 36 . When the input 30 is used, the spool of the slide valve moves such that the air flow through the input 32 is blocked and vice versa. The input used is then via the slide valve 36 in connection with an input channel 38 . When the air flows in through the inlet 30 , the air supply is also in connection with the flow meter 34 .

A pressure measuring instrument 40 is connected to the input channel 38 . The air flows through a 5 µm thick sintered element 42 and through two pressure regulators 44 and 46 . For example, regulator 44 can be set to 30 psi, while regulator 46 is set to 13 psi, but is adjustable.

From the regulators 44 , 46 , the air flows through a distribution block 48 from which it is distributed to 4 outlet channels 50 , 52 , 54 and 56 . Each outlet channel 50 , 52 , 54 , 56 is controlled by a solenoid valve 58 which is either fully closed or fully open. The opening and closing operation of the solenoid valves 58 is controlled by a timing circuit 59 which is programmed such that the solenoid valves 58 close at certain times, which times vary from one solenoid valve 58 to another.

The various contaminants to be detected are, for example, carbon monoxide (CO), carbon dioxide (CO ₂ ), oxygen (O ₂ ), water (H ₂ O) and oil. However, the invention is not limited to the study of these special contaminants. Two of the detector tubes 10 in Fig. 3 are used for water. A single detector tube is provided for each of the other contaminants. The air is let into each detector tube 10 via an adjustable throttle 60 . The length of time for which each reagent of the air is set is determined by the timing of the magnetic valves 58 . The volume flow through the reagent is adjusted with the help of the adjustable throttles 60 .

Typical water detector tubes are calibrated with a measuring scale printed on the detector tube with scale values between 5 and 200 mg / m ³ for a certain flow rate. In the device shown, one of the outlet channels is set such that it closes after a specific time, after which the flow volume for which the water detector tubes are designed has flowed through the corresponding detector tube 10 , while the other outlet channel is already after a shorter one Time closes. With a suitable choice of the shorter time, the measurement scale on the corresponding detector tube 10 is equivalent to, for example, 50 to 2000 mg / m ³ , so that the scale values on the two detector tubes 10 overlap and provide a wide measurement range.

The device is powered by an internal, rechargeable battery. The battery can be charged via a power cord that can be connected to the device via socket 66 , or by a 12 volt power supply, such as that available through an automobile cigarette lighter socket. A direct network connection is also possible. The status of the internal battery is checked via an LED display 68 . An ON / OFF switch is located at 70 and a control switch at 72 . Control switch 72 has four positions, HIGH PRESSURE, LOW PRESSURE, START, and OFF. The LED indicators at 74 are illuminated as long as air flows through the associated sockets 20 . The LED display goes out as soon as the examination for a detector tube 10 arranged in a particular base 20 has ended.

The device also has a temperature display at 76 . When switch 70 is on, this display shows the ambient temperature. During the course of an examination, the display shows the temperature of the generator air. The temperature of the generator air at which the test is performed should be recorded along with the test results.

In operation, the solenoid valves 58 are initially all closed. An air supply is connected to either input 30 or input 32 . If the input 30 is used, the air is immediately directed to the flow meter 34 . The flow meter 34 consists of a vertical glass tube in which a buoyancy body 78 is suspended. A throttle valve 71 can be adjusted via an operating button 73 on the front panel in order to set the desired volume flow. It is checked beforehand that the air supply can deliver a specified minimum volume flow.

Before the detector tubes 10 are inserted, the device should be cleaned by placing the control switch 72 in the LOW PRESSURE RINSE position (when the input 30 is operating) and thus the gas to be tested for a period of, for example, three minutes by all of the devices located in the device Detector tubes are flowing. The switch 72 is then set to the OFF position. If input 32 is used, cleaning is carried out by setting the control switch to the HIGH PRESSURE RINSE position for a period of 10 minutes, for example.

After cleaning, the detector tubes 10 are inserted into the sockets 20 and the switch 72 is set to the START position. This sets all of the timing circuits to zero and opens the solenoid valves 58 so that air begins to flow through the detector tubes 10 . After the set time for each examination has expired, the corresponding solenoid valve 58 is closed by the associated time control circuit. After all solenoid valves 58 are closed, the examination is ended and, if desired, a buzzer or other audible or visual warning signal is sent to alert the operator that the examination is complete and the device is turned off and off Air supply can be separated. In an old native version, the device is switched off automatically and the audible or visible warning signal is then emitted. The extent of the contamination is read from the detector tubes 10 marked with a scale and / or the state of the detector tubes 10 is compared with a standard table.

It is noted that when the inlet 32 is used, the flow meter 34 is excluded from the examination. It is therefore sensible to use the input 32 if the air supply has already been regulated above its connection to the device according to the invention. It is generally desirable to perform examinations on the breathable air while the air supply provides air in the normal amount of work. This will ensure that the air flowing through the detector tubes 10 is representative of the air quality of the air and not le diglich representative of a relatively small, enclosed air volume, which may just be sufficient to provide the necessary dynamic pressure to provide the To move air through the detector tubes 10 .

Under certain circumstances, the device can be aligned so that only controlled bottle air is examined, so that no input for generator air is required. In this case, the device can be modified such that the inlet connection 30 , the flow meter 34 and the slide valve 36 are omitted. In this case, the low-pressure outlet channel for the investigation of water, which measures the range between 50 and 2000 mg / m ³ , could also be omitted.

Claims (7)

1. Device for the examination of gases with an inlet for a gas to be examined, a plurality of examination channels through which gas may flow and a distributor element through which all the examination channels are connected to the entrance, the examination channels being arranged parallel to one another, characterized in that each examination channel ( is provided with an un-dependent adjustable shut-off device (58) 50, 52, 54, 56) so that each test channel (50, 52, 54, 56) independent of the other test channels (50, open 52, 54, 56) and closed and that there is a time mechanism ( 59 ) for monitoring the opening and closing times of each shut-off device ( 58 ). 2. Apparatus according to claim 1, characterized in that the examination channels ( 50 , 52 , 54 , 56 ) are provided with sockets ( 20 ) into which standard detector tubes ( 10 ) can be inserted such that the gas to be examined through the detector tube ( 10 ) flows through and into the atmosphere. 3. Apparatus according to claim 1 or 2, characterized in that the input ( 30 , 32 ) has a pressure regulating valve ( 44 , 46 ) so that the gas with a predetermined pressure through the examination channels ( 50 , 52 , 54 , 56 ) flows. 4. The device according to at least one of the preceding claims, characterized in that each examination channel ( 50 , 52 , 54 , 56 ) has a throttle valve ( 60 ) so that the volume gas flow for each channel ( 50 , 52 , 54 , 56 ) is adjustable. 5. The device according to at least one of the preceding claims, characterized in that a single blocking device ( 58 ) for opening and closing two or more examination channels ( 50 , 52 , 54 , 56 ) which are used for examinations with the same transit time, is provided. 6. The device according to at least one of the preceding claims, characterized in that a flow meter ( 34 ) is arranged parallel to the examination channels ( 50 , 52 , 54 , 56 ) so that gas at the same time through the examination channels ( 50 , 52 , 54 , 56 ) and the flow meter ( 34 ) flows. 7. A method for examining gases with a detector tube, characterized in that two identical detector tubes ( 10 ) arranged in two parallel examination channels ( 50 , 52 , 54 , 56 ), both examination channels ( 50 , 52 , 54 , 56 ) simultaneously are flowed through with gas and the flow rate of the gas in the two channels is different.