DE1912056C3 - Device for counting and / or analyzing particles suspended in a liquid - Google Patents

Description

I 912056 3 4

,! er particle, like ζ. B. blood cells, the pump grows its effect. The liquid that Resistance path often due to impurities in the glass tube 3 is clogged by the drain. Especially in a counting device with tube 35 ejected and flowing into the receiving geiau ju) n continuously working suction pump, in which there is 36 The whole cell process can be automated, is necessary before each new count the volume 5 The opening 37 of the drain pipe 35 is from a To ventilate metering device, there is a high risk of the pressed-on seal 38 being so tightly closed that that sucked in dust particles only ejected the resistance measuring liquid, but not gas or clog route. The invention does not allow liquid to be pumped in. The through the in the event of any malfunction, the replacement of the drain pipe 35 and the liquid discharged could wi> measurement section carrier necessary. It can only be fed directly to the container 5, Another measuring section of the same measuring section carrier, according to FIG. 2, is the cylindrical one

gers be moved into the working position. Additional measuring head made in two parts. In the hole 10 In an expedient development of the invention of part 1, one electrode 12 is spiral-shaped at least one gas inlet is provided which is arranged in a through-hole on a core 11. This will make the Direction of flight of the suspension in the area after the liquid flowing through it with the measuring path suspended therein empties. This makes it possible to force the th particles onto a spiral path to ventilate without this gene, and the formation of disruptive gas bubbles will have to ventilate through the measuring section itself. largely prevented. This part 1 is on the The measuring section is attached through a possibly sucked-in measuring tube 3 and with the two Dich-St.'i.il -partikelchen no longer bothered. ao processing rings 13, which are located in the grooves 14,

Embodiments of the invention are summarized below.

Explained in more detail with reference to the drawings. Part 2 of the measuring head carries in the bore 20

It shows an electrode 21, which is also inside a

1 ig. 1 schematically includes a particle grinding device core 22. The groove 23 is for receiving the in section, determined as measuring section carrier 4. The sealing rings

I i g. 2 schematically in section, partly strongly 15 and 25 in the grooves 16 and 26 seal the vei _; rößcrt, another particle counting device with j _n working position located ruby 41 with the attachable electrode carrier and a measuring measuring section 40 and the corresponding part of the stre kträger with several measuring sections, groove 23 to the outside. On part 2 there is a nozzle

ί 'i y. 3 in section a part of a measuring head 30 24 worked on, vun which, for example, a radially opening feed for the liquid hose 52 to a vessel 5 with the wedge to be tested with the suspended particles to be counted, liquid 51 leads. From electrodes 12 and 21

ν i g. 4 is a schematic diagram of a measuring section carrier with the several measuring sections and gas inlet grooves poured into the bores 17 and 27, connecting wires into a cavity 28 and from there

Fig. 5 schematically a measuring section carrier with 35 passed through the bore 18 to the outside. The circularly arranged measuring sections and on it measuring tube 3 is connected to hoses 31, 33 via a daradial arranged gas inlet grooves. intermediate collecting vessel 32 with a

According to FIG. 1, the continuously operating suction pump34 is connected to the electrode carrier 1 ', ring-shaped outer electrode 21 in a groove and the dosage of the amount of liquid happens with

the spiral-shaped inner electrode 12 in the hole 40 an electrical optical system. That easily arranged. The outer 21 and inner-l2 inclined measuring tube 3 is initially filled with air. As soon as the electrodes are made, for example, of platinum or a platinum pump 34 is running, liquid from the vessel 5 is alloyed. In the bore 10 the ucides are further sucked through the measuring head into the measuring tube 3. The beams of the two circumferential grooves 14 that each pass through a diaphragm 65, 66 and are intended for receiving the O-ring seal 13 are attached. The measuring path 45 the light sources 64, 63 are on the measuring tube 3 carrier 4 is directed into the bore 10 of the F. electrode carrier, and fitted on its inner and outer wall. The circumference 16 is intended to receive reflected light partially entering the photocells of the O-ring seal 15. In the bore 61, 62. If the air-liquid boundary layer of the measuring section carrier 4 passes through a ruby 41 with the plane A, then by changing the bore 40, which represents the calibrated measuring section, 50 represents reflection and refraction conditions on the inside , fitted. To count particles, the measuring tube 3 also uses the intensity of the light falling on the photocell 61 in a simple manner. Since * measuring section carriers 4 are exchanged. Measurement signal generated thereby causes via a signal path carrier 4 and electrode carrier 1 'are from transmitter 67 the switching on of a pulse counter 68, which is a chemically largely inert material, as is now all changes in resistance that z. B. Teflon or ceramic worked. The glass between the electrodes 12 and 21 of which the tube 3 sticks with one end in the extension resistance measuring section 40 passing particles earth bore 10 of the electrode carrier 1 '. <m operation to be witnessed. As soon as the gas-liquid boundary, the peristaltic pump 34 'conveys liquid from the layer B , it causes the level B in the container 5 through the bore 40 into the glass tube 3 A passes through, the speaking processed signal is switched off, the counter 68 is controlled by a controller 67, the pulse counter. The volume between the levels A, for example, has a photocell 63 as a signal transmitter, and B in the measuring tube 3 is precisely determined, switched on. The counter 68 then counts the before a new count can be made by the pulse counter

the measuring section 40 flowing particles. A second 65 can be set to zero with the 69 key. Should ci <Ttj2 neJjer 64! Schallst dsn from counter 68 as soon as a certain fluid 51 is a plurality of the liquid level of the Niveauß passes. Measurements are carried out at the same time and the counting results are simultaneously changed, a switching element 67 'changes the direction of rotation that is added, so it is sufficient to measure the volume A-B

5 6

capillaries drilled with Gas Rubine 41 are shown in the measuring tube before each individual measurement,

to fill. When a gas passes through again, they have different cross-sections. Between every two

Liquid boundary layer through the planes A and B measuring sections-a ventilation groove 42 is present.

the counting in the manner described above is, for example, the measuring section 40 a in

continued. The emptying of the measuring tube 3 from 5 working position and is now the measuring section 40 b

Liquid can e.g. B. pushed into this position via one with a cock 19 ', it takes place via the

closable gas inlet 19 happen, the ventilation with ventilation groove 42 in between

Advantage between the measuring section 40 and the plane A of the measuring tube 3 (Fig. 2), in that the sealing effect

flows into the system. When the system is pressurized, the sealing ring 16 is canceled. Thieves-

with air v / ird avoided that the ventilation grooves 42 can z. B. also as breakpoints

stand measuring section 40 of existing Staübparti- serve for a Feststelifeder, which the measuring

clogs. Different liquid route carriers 4 are held in certain positions.

are measured, the measuring tube 3 is automatically Fig. 5 shows schematically a circular measuring

when changing the vessel 5 via the hose 52 track carrier 4 '. In this there are six rubies 41

ventilated. 15 arranged on a circumference and can

Fig. 3 shows another advantageous embodiment can be brought into the working position like a revolver,

of part 2 of a measuring head. The supply of the ventilation grooves 42 'are radial between two

The measuring fluid is arranged laterally through the bore 200 rubies 41. A retaining spring 43 'holds the

and the connecting piece 201. This can be designed so that the measuring section carrier 4 'can be used in the various working areas.

that a anchored in a coupling element 202 "o were determined.

Hollow needle 203 can be placed on it. In order to manufacture parts 1 and 2 of the measuring head in this way, it is possible to use a sterile measuring system, especially plastics such as epoxy resins, for example, directly sample a vessel provided with a plug that can be pierced through and teflon, ceramic, glass and the like refer to. carrier can be made of metal, ceramic. Glass or one

F i g. 4 schematically shows a Meßstreckenträ- "5 plastic to be worked. The measuring sections are in

ger4 with four rubies 41 set in it. The crystals, such as sapphire, ruby or quartz, are drilled

Mebverbindungen 40 a, 4Qb and 40 c, which are particularly suitable through into the capillaries

1 sheet of drawings

Claims (4)

S 1 2 J J Ρο »Λη» αηο iiphp trischen resistance measuring stretchc generated change i-aicnunsprucne. d e | ektrjgcncn resistance to count. Known 1. A device for counting and / or analytical Teilchenzählcr use as Meßstrecken- and electrical% Sieren suspended in a liquid trodcnträger glass vessels with a resistor as particles, soft in at least one test section formed DEK- 5 calibrated bore. The % tric property of the liquid under the two required electrodes protrude into the vagina, with two vessels for holding the glass vessels. At least one of the glass receptacles suspension, with a small connection, also serves as a volumetric device for the opening forming between the receptacles (measuring measurement. Disadvantage of this known particle path) in one of the receptacles is that it is necessary for replacement the measuring section ΐ interchangeably attached measuring section carriers to one of the glass vessels or at least part of the passage of the suspension and with two a glass vessel removed and exchanged on either side of the measuring section, to one of the must. The electrodes, which protrude freely into the vessels, are connected to the electrical measuring and counting circuit and are easily exposed to damage.
Electrodes, characterized in that, in the case of an improved known ί that the measuring section carrier (4; 4 ') is exchangeable particle counter, one electrode is fixed in an electrode carrier (!'; 1, 2) with the exchangeable>; firmly anchored electrodes (12; 21) attached to the vessel part, namely by applying f, which in turn together with the measuring a metallic. Layer on the glass vessel part. \ track carrier (4; 4 ') an exchangeable part 20, but this does not eliminate the risk of damage \ (measuring head) forms on one of the vessels (3). for the other electrode and the disadvantage of the expensive one 2. Apparatus according to claim 1, characterized in production of the measuring section carrier. The manufacture indicates that the measuring section carrier (4; 4 ') of the measuring section carrier is expensive, since the calibrated several measuring sections (40 a to 40 d) of the same or resistance measuring section in the form of a size different in a Kriv and for the loading 2 ;, Stall drilled capillary in a hole of the glass use pitch each one of the measuring sections GefäHteiles must be taken. Frequent replacement (40ö to 40d) in the electrode holder (1, 2) is necessary, since the measurement can be adjusted when cleaning. Leg carrier damage to the fragile 3. Device according to claim 1 or 2, since glassware cannot be avoided in practice,
characterized in that the electrode carrier 30 The object of the invention is to provide a (1, 2) of the measuring head with an inlet opening device of the type mentioned at the beginning for measuring (20) for connecting a 50 vessels ( 51) connecting line (52) and to be simplified and further developed in a functionally correct manner, an outlet opening (10) for connection to a vessel which is insensitive to damage and which is designed as a volume measuring tube (3) and is low-maintenance, accurately measuring device, the measuring distance will meet. ger (4) between the input (20) and output. passage opening (10) is arranged, wherein aie mentioned type proposed that the measuring Measuring section (43) the inlet opening (20) with the section carrier exchangeable in an electrode the outlet opening (10), and a 40 carrier with electrodes firmly anchored in it. • the electrodes (21) is brought into the inlet opening (20), which in turn together with the and the other electrode (12) has a replaceable part in the output measuring section support opening (10) on both sides of the measuring section (40) forms one of the vessels, are arranged opposite. This creates a compact measuring head. 4. Device according to one of the preceding 45 which takes practical requirements into account, the claims, characterized in that an exchange of damage-sensitive at least one gas inlet (19,42,42 ') provided glass parts is not required, and the electrodes is that in the direction of flow of the suspension are not even when the measuring carrier is replaced Area opens out after the measuring section (40). Risk of damage exposed. The measuring 50 head itself does not have a container function, where- due to the form-complex and destruction-prone vessels and lines and the use The invention relates to a device for additional amounts of liquid in the measuring vessels for counting and / or analyzing in one is avoided. It is a slight exclusion Liquid suspended particles, which are in 55 and cleaning possibilities both for the measurement at least an electrical property of the route as well as the electrodes or both to the liquid differentiate, with two Gc / ate given to the samreen. Recording the suspension, with a small one in an appropriate embodiment of the invention carries Connection between the opening of the measuring section carriers forming several measuring sections (MeßstrecVe) in one of the vessels 60 or different sizes and is for the replaceable measuring strip. x carrier for use position in each case one of the measuring section. 1 Passing through the suspension as well as with two both adjustable in the electrode carrier. So that is a • On the side of the .measuring section, on a ^ n electric fast exchange of the measuring sections under consideration Measurement and counting circuit connected to the required measurement distance trodden. 65 allows. It is known that a suspended in a liquid can be structurally particularly advantageous. Execution of the Particles with invention different from the liquid is characterized in claim 3, electrical conductivity by means of Jer in an elec- In a particle counting device for counting small