SU1138706A1 - Device for introducing calibration particles into aerosol counter - Google Patents

Abstract

1, A DEVICE FOR INPUTING A CALIBRATION PARTS TO A COUNTER OF AEROSOLS, consisting of a cylindrical cup and a tube with an air-permeable diaphragm that is coaxially located inside the cup, dividing the cup into two parts, so that expanding the range of microconcentrations of calibration particles, a lid with an opening, installed in the upper part of the glass, an absorbing filter installed under it, a ring installed on the outer surface of the glass to re-cover the holes made in the wall glass under the diaphragm, while the opening area of the lid is equal to the area of the holes drilled in the wall of the glass, the upper end of the tube protrudes above the surface of the diaphragm to a height determined from the ratio

Description

The invention relates to a technique for measuring the number concentration of aerosols in the air and can be used to introduce calibration particles into aerosol c-meters. Aerosol devices are known, whose principle of action is based on spraying a hydrosol consisting of particles of exact dimensions and distilled water, with clean compressed air G1. However, these devices do not provide a wide range of generated particles and, along with particles of a given size, can produce a liquid phase with the presence of aggregates. The closest technical solution to the invention is devices for introducing calibration particles into an aerosol counter consisting of a cylindrical glass and a tube with an air-permeable diaphragm separating the glass into two parts coaxially located inside the glass. However, the known device is designed to load a large enough powder It is located above the intake zone, which makes it difficult to create the required microconcentration of particles without an additional source of compressed air. The aim of the invention is to expand the range of trace concentrations of calibration particles. The goal is achieved in that a device with a cylindrical cup and a tube with an air-permeable daafragma coaxially located inside the cup dividing the cup into two parts, is equipped with a lid, mounted in the upper part of the cup, absorbing a filter installed under it, a ring mounted on the outer surface of the station to block the holes made in the wall of the glass under the diaphragm, while the opening area of the valve is equal to the area of the holes made in the wall of the glass, the upper The end of the tube protrudes above the surface of the diaphragm to a height B, determined from the ratio (33440) (jp,) Lw.inner tube diameter; is the internal diameter of a centimeter, the height of the layer of calibration particles of the spray over the diaphragm b i d. In addition, in order to grind the alibrovich particles, the upper end of the cabin is made in the form of a cone-shaped funnel. The drawing shows the proposed device, a general view. The device consists of a cylindrical cup 1 with eight diametrically opposed orifices and 2 and an annular seal 3, cushion 4, on which an absorbing filter 5 is fixed, air-permeable and the aphragm 6 and a cone-shaped crow 7 of the tube, a ring 8 of the cover 9 with an anti-fouling filter 10 and aperture 1 I. The device works as follows. The device, either directly or through a nozzle using an o-ring 3, is hermetically inserted into the nozzle of an aerosol counter, after filling the calibration particles onto the diaphragm 6. Powder particles are generated in the region of the intake zone from a portion of the air flow created by the meter pump and passing through the holes 2, the absorbing filter 5 and the air-permeable diaphragm 6. The microconcentration of the powder particles per unit volume is adjusted by rotating the outer wall of the cup of the ring 8, which covers bore sections 2. A portion of the air flow from the meter pump passes directly through the absorption filter 10 and the opening 11 and serves to dilute the fluidized bed, which is created in the intake zone by powder particles when they are generated. The conical funnel 7 of the tube serves to provide the grinding of the calibration particles flying from the diaphragm. These particles, rising with the air flow, either hit the funnel, or fall into the vortex loop-like flow that forms in front of the funnel and behind it. In either case, the aggregate of the particles breaks down. For effective operation of the device, the diameter of the hole 11 is chosen to be equal to the sum of the diameters of the holes 2, i.e. equal distribution of air flow Q is established and

Claims (2)

1. A DEVICE FOR INPUTING Gauge particles to the aerosol counter, consisting of a cylindrical cup and a tube coaxially located inside the cup with an air-permeable diaphragm that divides the cup into two parts, and therefore, in order to expanding the range of microconcentrations of calibration particles, a lid with a hole installed in the upper part of the glass, an absorbing filter installed under it, a ring installed on the outer surface of the glass for re-opening holes made in the wall of the glass are introduced into it ana under the diaphragm, while the area of the lid opening is equal to the area of the holes made in the glass wall, the upper end of the tube protrudes above the surface of the diaphragm to a height I, determined from the relation (33-40) ό _βτ έ 1 ^ 6 dec, where d _0T is the internal tube diameter; d _{ec <} is the inner diameter of the cup, and the height of the layer of calibration particles above the diaphragm h <d _βτ . 2. The device according to π.1, characterized in that, in order to grind the calibration particles, the upper end of the tube is made in the form of a cone-shaped funnel. <And 38706