DE2165836A1 - DEVICE FOR COUNTING PARTICLES SUSPENDED IN A LIQUID - Google Patents

Description

FRITZ HELLIGE & CO GMBH ■ FACTORY SCIENTIFIC AF'PARATE · FREiBURG IM BREISGAU

PW-P 287 December 21, 1971

HJC / ems

Patent and utility model application 2165836 Device for counting particles suspended in a liquid

The present invention relates to a further development of known ones Devices for counting particles suspended in a liquid, in particular erythrocytes and / or leukocytes in blood, in which those in an electrical circuit due to the Particle-induced changes in resistance generated pulses are counted. In order to understand the problem solved by the invention, such a device will first be explained with reference to the figure.

The measurement method used is based on the fact that in an electric see Circuit that runs through the sample liquid, measurable changes in resistance occur when the particles to be counted this Hike through the Strora path. These measurable changes in resistance are converted into countable electrical ones by suitable electronic means Momentum e converted.

If it is a matter of counting blood cells, the blood sample is diluted 3 times with a conductive physiological liquid and filled into the sample cup i. A measuring cylinder 2 is immersed in this and in the blood sample 3, which has a fine opening 9 at the bottom, suitably matched to the size of the particles to be counted, eg _o for blood with a diameter of approx. 70 μm. It is closed at the top by means of the stopper 2a and is connected through the inserted tube 5 to a pump 6, 7 with which the liquid 3 can be sucked into the measuring cylinder 2 via the opening 9 and ejected from it again.

309827/0664

FRITZ HELLIGE & CO GMBH · FACTORY OF SCIENTIFIC APPARATUS · FREIBURG IM BREISGAU

Two electrodes Ei and E3 are also inserted into the measuring cylinder 2 through the stopper 2b, of which the lower-end electrode El initiates the counting process as soon as it is touched by the amount of liquid k in the measuring cylinder and an electrical circuit between it and a second, In the sample cup 1 and in the liquid sample 3 immersed electrode E2 closes, which is constricted at the opening 9. It is assumed that the measuring cylinder 2 consists of an electrically non-conductive material, e.g. glass 11 of the pump 6, 7 is reversed from the suction phase to the pressure phase, for which purpose corresponding switching means 10, known per se, are used. The counting process is then repeated for the purpose of control of the first count in äesT pressure phase "Whenever each of a particle, eg a blood cell passes through the opening 9, these particles varies there due to the low conductivity of the resistance in the electrical circuit between the electrodes El and E2. These changes in resistance generate the pulses to be counted by the counter Ik via an amplifier 12 and a discriminator I3. The measuring method is based on a direct counting of the pulses which are produced by each particle when it passes through the opening 9. If the falling fluid level of the sample blood volume 4. When the tip of the electrode E1 passes, the circuit running between the electrodes E1 and E2 and fed to the input of the amplifier 12 is interrupted and the counting process is ended automatically. The main switch 15 is also shown in the schematic circuit diagram.

309827/0684

FRITZ HELLlGE & CO GMBH · FABRIK WICSENSCHAPTLICHER APPARATE · FREIBURG IM BREISGAU

PW-P 287 J page-5

The present invention is related to the fact that for sucking and for expelling the sample volume of blood k domestic or used 6 _S 7 from the measuring cylinder 2, a mechanical piston pump. While a vacuum is generated in the measuring cylinder 2 during the first measurement (in the suction phase), theoretically the entire suspension 4 would have to be challenged from the measuring cylinder 2 by the piston stroke after the end of the second measurement in the pressure phase. In practice, however, it turns out that small residues of the liquid or suspension remain in the measuring cylinder, which can incorrectly influence further measurements. It was therefore the task of ensuring, by means of suitable additional measures, that the entire amount of liquid 4 contained in the sample cylinder 2 is conveyed out of the opening 9 in the printing phase.

This is achieved according to the teaching of the invention with an additional device on the pump 6 and 7I, namely on the pump cylinder 6, preferably via a connecting channel 8a, a small one Chamber 8 connected approximately in the middle of the jacket of the pump cylinder 6, so that this is in the completely inserted Pump piston 7 assumed position at the end of the pressure phase via the open end of the cylinder 6 in connection with the outside atmosphere stands, while this chamber 8 is in the other, withdrawn by the Piston assumed position at the end of the suction phase with the inner volume of the pump cylinder 6 and thus via the tube 5 with the Inside the measuring cylinder 2 has connection. This i ^ ird just before Completion of the suction phase in the vacuum space 2a, 5 »6a generated A certain amount of reserve air is supplied, for example a third of the volume corresponding to the piston stroke, without the suction effect would be significantly restricted. But then there is a bigger one Air volume for the ejection of the sample liquid% available when the ejection process after switching to the printing phase expires.

309827/0664

FRITZ HELLIGE & CO GMBH · FABRIK W-RSENSCHAFTLCHER APPARATE · FREIBURG IM BREISGAU

Due to this additional amount of air, the smallest remnants of the sample liquid that would otherwise remain are also transferred over the opening 9 ejected or blown out. The dimensions of the pump piston 7 must therefore be determined so that in the two end phases of the Piston stroke the chamber 8 with one of the two ends of the pump cylinder 6 communicates. The position of the piston 7 at the end the suction phase is indicated by dashed lines in the figure with 7 *. The complete emptying of the sample liquid from the measuring cylinder 2 announced by air bubbles in the liquid sample 3 of the measuring cup 1.

Apart from the fact that in the parts counting device, which by the present invention is improved, the sample liquid is sucked not only through the capillary 9, but also from it / is expelled and thus a blockage of this capillary to a large extent is excluded, the invention also ensures a clean, error-free measurement without having to be constantly after each Measurement of the measuring cylinder 2 must be cleaned. This simplifies the handling of the devices and therefore has to be used in clinical Laboratories are of considerable practical importance.

309827/0664

Claims (2)

FRITZ HELLIGE & CO GMBH · FACTORY OF SCIENTIFIC APPARATUS · FREIBURG IM BREISGAÜ REQUIREMENTS 1.) Device for counting the particles suspended in a liquid, in particular erythrocytes and / or leukocytes in blood, determining the change in resistance caused by these particles in an electrical circuit »with a measuring cylinder (2) immersed in a sample cup (1), ₉ in its bottom a fine, sui scoring the size of the · particles suitable tuned opening (9) has its upper end to a piston pump (S _8?) connected _s and in which a sprsbe together with a in the Plüssiglxei ^ { "), of the cup Cl) immersing electrical electrode iiS, &} \ 'ts. £ t an electronic pulse counting device before direction 2WBa.mmena.Th <s ± t & ziae counting electrode (El) -and a third _s ins. a hestlmsatB ^ iJsstaad over its ending electrode (E3) eißtaucheß ₅ which riding the · control device (lO) for the drive DER pump (S ₁ 7} is connected to and in contact with the durcli the opening Cf) asigs = - aspirated sample amount (4) of the Suspensiomsflüssii -skcsi-i des. Pi ^ atpTor = transition from the suction phase to the Druckpiiaso imstsuert ₅ dadszrsl :. in that the in general iiimter- deis Eolbsri C) open to the atmosphere pump cylinder (6) sias ■ semist feieklcsss · ne chamber (8) is integrally Schlos rope in such a position ₀ ds:? £ it, the piston (7) advanced in its , v © r of & mg5jzgph.z, & £. assumed starting position for Ataospliäre feisi. releases isn-the CLO in the drawn-out, upstream of Ausstoßphass singsmoESEeriSEü Siid = position with the then completed interior (6a) of IDsIbsirisyLir - = DERS (6y and the Verbindungskaraal (5) sait & ®m liissrn |? Sat. ) of the measuring cylinder (2) connects. 2. Apparatus according to claim 2, characterized gekennaeichiaet _s that the Qatar er C "from an attached bubble made of glass is free" dis iibeir eiss channel (8a) in the pump cylinder (β) miindeto 309827/0664 / ^) Blank page