DE2757603C2 - Device for determining the density of aerosols - Google Patents

Description

The invention relates to an apparatus for determining the density of aerosols using one of the Aerosol flowing through the oscillating vibrator, the frequency of which is measured.

Such a device is in the magazine »Aerosolreport«, Vol. 16, No. 3-77, page 92. The known density measuring device can be used without additional equipment not be filled with a liquid aerosol without the formation of gas bubbles in such numbers that the Hinder measurements.

It is the object of the invention to create a device for determining the density of aerosols which the oscillating flexure is filled as bubble-free as possible, thus ensuring the accuracy of the output Increase readings.

This object is achieved by the features listed in the characterizing part of claim 1. Further Refinements of the invention can be found in the subclaims. An implementation example! the The invention is explained below with reference to the drawing.

The device for determining the density of aerosols has a holder 4 and 5 for the aerosol can 1. At 4, the head of the aerosol can 1 is connected to a line which leads to the pulse valve 6. At 5 is the holder is vertically displaceable and resilient to the insertion and removal of the Aerosol can 1 as well as making it easier to adapt to different can sizes. The pulse valve 6, preferably with electromagnetic or pneumatic drive, is with an electronic control unit 9 connected, which gives the valves 6 and 7 the opening and closing pulses In the line between the Impulse valve 6 and the flexural oscillator 3 is a manometer 12 for determining the pressure during The line 13, which comes from the pulse valve 6, is connected via plug-in connections 10 and the hose connection 11 of the oscillating vibrator 3

ίο and this itself with the one arranged in series Throttle valve 8 and the pulse valve 7 connected. The throttle valve 8 is preferably immediately behind the The output of the oscillating vibrator 3 is arranged

It is necessary for a good reproducibility of the measurement results, the flow rate of the Adjust aerosols during the filling process with a throttle so that on the one hand the flexural oscillator purged and filled and on the other hand the gas bubble formation can be restricted as much as possible.

μ Weilerhin is essential that the density measurements take place under the pressure conditions under which the aerosol can 1 is. This is achieved by closing of the valve 7. The valve 6 should be arranged as close as possible to the head 4 of the can 1, because of the Gas escaping when the can 1 is removed from the holder.

The series connection of the pulse valves 6, 7 has the advantage that the flexural oscillator 3 only as desired with liquid propellant and the one in the aerosol can 1

so contained substance (solution) is filled. With the help of the timing elements, the electronics control the sequence of the opening and closing positions of the series-connected pulse valves 6 and 7 precisely and reproducibly. For example, with the fully closable throttle valve 8, it is possible to reduce the flow of the aerosol to below ΙΟΟμΙ / sec. to be limited with a flow cross-section of the valve between approximately 1 and 2 mm ² . The valves 6, 7 used are those that generate the least amount of heat possible, ζ. Β.

Impulse valves. The valves 6, 7 and 8 are contained in the receiving unit 2 for the flexible oscillator 3.

The density meter with the flexural oscillator 3 is on

known. A flexural oscillator 3 made of glass, which is thermostated and has proven particularly useful

4-> in the device at an angle to the horizontal of about 30 to 60 ° is arranged. The flexural oscillator 3 has the advantage over the in this new angular arrangement previous horizontal arrangement that still present small gas bubbles rise in the liquid and escape from the measuring zone.

Application example

Flexural transducers 3 are suitable for all aerosols with the exception of paints and foams, e.g. B. for propellant mixtures, n-butane, CCh spray, laughing gas spray, hairspray, hair dryer lotion, spray setting, body spray, foot spray, room spray, perfume spray. Depending on the type of spray, the reproducibility of the measurement results was between ± 2 · 10 ~ ⁴ and 5 · 10- · g /

bo cm ³ . This reproducibility (standard deviation) is significantly higher than that of other methods for measuring the density of aerosol sprays.

1 sheet of drawings

Claims (6)

Patent claims: 1. Device for determining the density of Aerosols using a flexural oscillator through which the aerosol flows, the frequency of which is: is measured, characterized in that the flexural oscillator (3) in series between two Pulse valves (6, 7) is arranged, and that the output of the oscillating vibrator (3) is a throttle valve (8) is connected downstream. 2. Apparatus according to claim 1, characterized in that the pulse valves (6, 7) electromagnetically, operated pneumatically or mechanically. 3. Device according to one of claims 1 and 2, characterized in that the flexural oscillator (3) is arranged in the device at an angle to the horizontal 4. Apparatus according to claim 3, characterized in that the angle of inclination of the flexural oscillator (3) is in the range between 30 and 60 ° 5. Apparatus according to any of the preceding claims, characterized in that the flexural oscillator (3) is thermostated approximately to a temperature ^ the temperature of the aerosol in the can 6. Device according to one or more of the preceding claims, characterized in that that a receiving unit (2) for the flexural oscillator (3) contains a line (13) in which at least one throttle valve (8) is arranged.