PL109195B1 - Device for measuring the concentration of particles in suspension - Google Patents

Description

Inventor: Witold Holiozer Authorized by the patent; Poliltedhnika Slaska im. Wincentego Pstrowski, Gliwice (Folsfea) The device for measuring the concentration of particles in the suspension The Rrzednlioteim of the invention is a device for measuring the concentration of particles in the suspension. The invention is intended for use in industry, for example, to analyze the content of solid contaminants in water, air, etc. in medicine, e.g. measuring the number of red, white or platelet cells in a unit of blood volume. The concentration of particles in a suspension is defined by the number of particles that make up a solid phase to a unit of suspension volume. Until now, concentration measurements are carried out using milk jugs to measure the concentration of particles by gastric single particles translate into a constant volume of the suspension. Relating the counted number of particles to the unit of volume gives the concentration. Assuming a constant measuring volume and a constant speed of the suspension flowing through the measuring transducer, a constant measurement time is obtained. The assumed measurement volume is based on the assumed counting accuracy and on the high value of the piomaterial range. Therefore, the most disadvantageous for the measurement range of the measurement range is adopted, i.e. In this situation, the time required to measure the fineness of particles is longer than the minimum concentration, which is particularly disadvantageous in automatic systems with high efficiency, e.g. automatic hematological aoiailisers. The aim of the invention is to construct a device that allows concentration measurement. in less time than the measurement time by the method of dosing a constant volume, while maintaining a constant repeat of the number in the whole measuring range. the device according to the invention comprises a particle quantity converter connected to one input of a digital gate, the test output of which is connected to a volume measuring system through an imfpuils counter ^ the volume measuring system is connected to the ufcla-hipim reading, the start input connected to and p * The Qt with the second input of the gate and the second input to the volumetric system. In another solution, the device has a wire for measuring the number of particles connected to the digital gate, which is raging with the pulse counter, which is the output start is connected to the volume measuring converter and the second input of the gate, the output of the stand is connected to the second input of the volume measuring converter, the output of which is connected to the reading system. The main advantage of the inventory over the existing solutions is the reduction of the duration of the concentration measurement particles in the suspension while maintaining the same repeatability, despite the constant over the entire range after metric, nip. denoting the minimum of the measuring range of the concentration by 109 195 109 195 3 4 connected to the volume measuring converter 3 and the second input of the gate 2. The "STOP" output of the counter is connected to the second input of the volume measuring converter 3. The volume measuring converter 3 is combined with reading system 5. PL

Claims (2)

Claims 10 1. A device for measuring the concentration of particles in a suspension, characterized in that it has a particle number converter (1) connected to the input of the digital gate (2), the output of which is connected to the volume measuring system (3) through the pulse counter (4), and the volume measuring circuit (3) is connected to the reading circuit (5), where the input (start) is connected to the second braimica input (2) and the second ulklaid input for the volume measurement ( 3). 2. A device for measuring the centrifugation of particles in suspension, characterized by the fact that it has a device for the number of particles (1) connected to a digital gate (2) which is connected to a pulse counter 15 (4), whose output (start) is connected to the converter the volume measurement (3), and the expensive input of the gate (2), while the output (stop) with the second input of the volume measurement converter (3), the output of which is connected to the yklaicleim o 30 read (5). Fic. Z. DN-3, z. 701/80 Price PLN 45 VX min, measured in a given sample, concentrations by K, where K ^ K min, we get: Kmin Ti "" "Tv K Where: Ti - measurement time for counting a constant number of particles and a variable volume Tv - the time of measurement of particle counts at a constant measurement volume. The invention is illustrated in the Figure 1 shows a block diagram of the device, and Figure 2 shows a block diagram of the device in a different embodiment. The device for measuring the concentration of particles in the suspension comprises a particle number converter 1 connected to one of the inputs of the digital gate 2. The output of this baffle is puffed with a volume measuring device 3, and a pulse counter 4. The volume counting system is connected with an analog or digital reading system 5. The start of the particle count and the volume measurement is done by supplying the long input of the digital gate 2 and the long input of the volume measurement 3 of the trigger signal "ST ART ". In another embodiment, the measurement of the concentration of particles in the suspension comprises a particle number measuring transducer J, which is connected to the digital gate 2, which is connected to the pulse counter 4. The "START" output of the counter is PL