DE2260313C2 - Method and device for the determination of fine dust concentrations - Google Patents

Description

2. Apparatus according to claim I _1, characterized in that the primary light source is a GaAs luminescence diode and the scattered light receiver is a silicon photodiode.

3. Apparatus according to claim 1 or 2, characterized in that the phase-sensitive Rectifier (14) is an amplifier (16) nachgeordnel, which with an analog display instrument or, with the interposition of an analog-digital converter (17), with a multi-digit LED Display unit (18) is coupled.

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The patent 22 60 150 relates to a method for determining measured values of the concentration of respirable fine dust fraction of 0.5 to 7 μίτι, the coincide with the curve for the probability of deposition in the pulmonary alveoli, in one atmosphere by measuring the strength of the dust particles produced when the primary light hits b5 existing scattered light, which is at a scattering angle of up to 80 °, preferably 70 °, against the direction of the Primary light is caused by the dust particles, which is emitted by the light source Primary light has a wavelength of 1000 to 2000 nm, but a device with a light source that emits a primary light with a wavelength of 800 to 2000 nm, which is also still satisfactory in the sense of the invention Deliver results.

To compare the light intensity, a photoelectric system has been used so far, which consists of either a Photo receiver consists, which alternates from the comparison light and from the portion of the scattered light that below a mean value of 60 to 80 °, preferably 70 °, to the primary light through an exit window Leaving the measuring chamber, being hit or from two similar photo receivers, one of which is the Comparative light and the other the proportion of scattered light that is below a mean value of 60 to 80 °, preferably 70 °, to the primary light leaves the measuring chamber through an exit window, receives (DE-OS 20 51 546).

The method of comparative luminous intensity measurement has the disadvantage of both spatial and numerical factors complex optical facilities with it.

The device for carrying out the method becomes unwieldy and inevitably requires an optical one measuring chamber protected from the light of the atmosphere.

From US-PS 3,51,066 it is known, for example, cloudiness, preferably of liquids, in one to measure the widest possible measuring range on the J.T.U.-scale. Here one does not get closer designated light source emanating light rays through the opacities located in a measuring zone partially scattered. Of the two light-sensitive measuring cells required, one receives the through the Light transmitted directly through the measuring medium, the other the light scattered at a relatively small angle; a calibration light source is also provided. The electrical circuit downstream of the receivers essentially serves to divide the measuring signals supplied by the two light-sensitive measuring cells by electrical means, so that there is no need to read off two measured values and then only after the one Division, read off the desired turbidity value from a diagram. - Such a measuring device has the disadvantage caused by the double beam that they are more susceptible to, among other things Interference is; in addition, it can only be used in a pipe system protected from ambient light as any extraneous light would falsify the measurement result. Finally, one such, for Large measuring ranges set up device only with high electrical expenditure at the lower limit of his Measurement range has a similarly high resolution as is required to solve the measurement problem according to the invention to solve.

From DE-OS 15 98 226 is also known to determine aerosols in the air that a Light source is operated in pulses and a light-sensitive element through the light source generated scattered light measures, wherein the photosensitive element and at least parts of a downstream of it Amplifier can be switched on periodically, the switch-on period being changed by that of the pulsed operated light source is intended. - A corresponding one However, the device is only suitable for the presence or absence of Aerosols are detected in the air and are unable to move between differently sized particles

distinguish and only the respirable fine dust particles to measure and evaluate. In particular, it is also with a combination of the previously known Devices and methods are possible, a sufficiently precise determination of measured values of the concentration the respirable fine dust fraction of 0.5 to 7 μπι, which coincide with the curve for the deposition probability in the pulmonary alevoli, in one to carry out a measuring chamber open to the atmosphere.

It is therefore the object of the invention to create a device that specifically removes particulate matter in the lungs detected, is insensitive to the influence of extraneous light, is light and is as little as possible in terms of measurement technology laborious.

In order to achieve the lowest possible lower concentration limit and the device with open To be able to operate the measuring chamber, interference should be eliminated by the ambient light. That's why is expediently the operational disturbance of the light source at a frequency, e.g. B. modulated by 1 kHz and the receiver is selectively tuned to this frequency. A narrow detection of the measurement signal with a maximum distance to interference signals can be achieved Using a phase sensitive rectifier achieved its reference signal directly from the supply stage the light source is removed. The gain of the downstream amplifier should be infinitely adjustable within the tolerance range in order to keep the device below To be able to readjust using a scatter standard on the same measurement display. The Messsig.ial can according to the invention via an analog output au) a compensation recorder for continuous Registration given and supplied to a 3-digit LED display unit via an analog-digital converter will.

For better handling of the device, the measuring chamber is also used for direct measurement of the light intensity designed in the form of a tube which is open in the axial direction on both sides. The measurement then takes place in such a way that the device is simply held in the atmosphere containing the fine dust. The fine dust enters the measuring chamber by itself, and its concentration can be controlled by triggering the Measuring device are determined. So that the measurement result is due to reflections of the primary light is not falsified, suitable screens and light traps are on the inside of the measuring chamber walls in the Arranged in such a way that no light of the primary beam reflected from the measuring channel walls reaches the receiver system achieved. The spatial arrangement of the apertures and light traps results from the geometry the measuring chamber.

Further improvements result from the claims.

The invention is explained in more detail with the aid of a drawing.

The beam path of the device for carrying out the method according to the invention is shown in FIG a measuring chamber designed in the form of a tube. FIG. 2 shows the block diagram of electrical components for processing the measurement

s signals.

According to Fig. 1 penetrated by the light source 1, consisting z. B. a GaAs luminescent diode, sent out and from the lens 2 parallel light bundle as primary light 3, which is perpendicular to

ίο image plane open measuring chamber 4. The through the The primary light 3 incident on the inlet opening 5 strikes the fine dust particles in the measuring chamber 4. Under a mean angle of 60 to 80 °, for example 70 °, against the direction of the primary light beam 3 is at the

Measuring chamber 4 for the scattered light 7 emanating from the measuring volume 6, a receiver 8, e.g. B. a silicon photodiode arranged. It is used to measure only the portion of the scattered light 7 that occurs at a mean angle of 60 to 80 °, for example 70 °, through a lens 9 through the outlet opening 10 of the measuring chamber 4 to Receiver 8 arrives. The receiver has a maximum sensitivity, which is precisely the wavelength of the light emitted by the light source. Receiver and light source come with a low Supply voltage, which is approx. 3.7 V, and taken from a battery housed in the device will. The electrical components that evaluate the light signal, such as rectifiers, amplifiers, converters etc. and also the battery supplying current are at 11 housed.

There are suitable screens on the walls of the measuring chamber and light traps 12 arranged which absorb the light reflected on the chamber walls, so that this does not reach the recipient and falsifies the measurement result.

According to FIG. 2 issues the z. B. from a GaAs light emitting diode existing light source 1 a light beam, which is partially as scattered light from the receiver 8, z. B. a silicon photodiode is added. Above

w a preamplifier 13, the measurement signal is sent to a phase-sensitive rectifier 14 which, like the light source, is controlled synchronously by an oscillator 15, e.g. B. at a frequency of 1 kHz. This ensures that phase-shifted extraneous light cannot pass the receiver 8. Interfering influences from the ambient light when the measuring chamber is open are thus eliminated. The downstream amplifier 16 has a gain factor which can be continuously adjusted within the tolerance range in order to be able to readjust to the same measurement display using a scatter standard after a long interruption of the measurements (zero point setting and calibration). The measurement signal can be sent via an analog output to a compensation recorder for continuous registration or supplied via an analog-digital converter 17 to a 3-digit LED display unit 18. The electrical components are supplied with electricity via a battery 19.

For this purpose 2 sheets of drawings

Claims (1)

Patent claims: 1. Device for carrying out the method for determining measured values of the concentration the respirable fine dust fraction of 0.5 to 7 μΐη, which is with the curve for the deposition probability in the pulmonary alveoli match, in an atmosphere by measuring the strength of the dust particles when incident ultrared primary light of about 800 to 2000 nm Wavelength resulting scattered light, which is at a scattering angle of 60 "to 80 °, preferably 70 °, against the direction of the primary lithium, is caused by the dust particles according to the patent 22 60 150 in the form of a portable radiation device that is insensitive to the effects of external light immediate prevention of the measuring chamber to the atmosphere, characterized by the Combination of the following features 20th a) a tube-like measuring zone (4), which is preferably in the axial direction after two opposite sides is open to the atmosphere and its walls by means of panels and Light sources (12) against reflections of the primary light are protected b) the primary light source (1) and a scattered light receiver (8) in the wall of the measuring zone (4) are arranged so that they form an angle of about 70 ° and the so spanned Plane is approximately parallel to the open sides of the measuring zone (4), c) the primary light source (1) only emits light with a wavelength of about 800 to 1000 nm, d) a phase-sensitive rectifier (14) the scattered light receiver (8) with the following Measurement signal amplifier (13) is arranged downstream and e) a synchronously modulating oscillator (15) with the operating current source of the primary light (1) and the phase sensitive rectifier (14) is coupled.