DE1498643C - Measuring cell for a device for measuring the number and size of particles suspended in a liquid - Google Patents

Description

3 4

j of the measuring cell, as the drain pipe also forms chamber 52, which is at 54 at the lower end.

j fulfills the function of an electrode, so that one is closed, but there is a drainage hole in the middle of the floor

■ separate electrode can be omitted. 56 owns. A one-piece tapered base 58

! According to a further embodiment of the invention is used as an adjustable foot and is preferably with a side

the drain pipe through a valve to a vacuum source 5 lent opening 60, through which the into the

and L-shaped drain pipe 14 inserted between the drain pipe and drain hole 56

The line leading to the vacuum source is an electrical line that is routed to the outside. This drain pipe 14 is how

insulating pipe section switched. By this it is said to be connected to a vacuum source via the electrical

possibly remaining in the outer measuring vessel suspen- insulating pipe section 16 and the valve 12 on-

Suck off sion residues through the vacuum source to close the laser. The valve can be a one-way valve, only

sen, without, however, by the connection to the opening and closing, be - 12 in F i g. 3 -

Vacuum source interferes with the electrical measuring circuit or it can - 66 in F i g. 4 - a three-way valve

is influenced. being. In this case it has three positions A, B and

To fix the position of the measuring vessels to one another - C, of which A and C are closed, B is open.

15, according to another embodiment. The advantage of this type of valve will be explained later

Invention at the bottom of the interior and exterior.

Measuring vessel confined chamber ribs for spacing- The upper part of the cylindrical body 50 of the

arrangement and centering of the vessels. Measuring vessel 10 is turned into a funnel at 68

The sample suspension is simply expanded to the outside. As a result, the sus-

To be able to bring in the measuring vessel, the pouring part 20, the pension sample, is poured in slightly from above,

preferably funnel-shaped. As you can see, the bottom of the chamber 52 has a circular

The invention is described below on the basis of an arcuate rib 72, but not in the middle

The embodiment shown in the drawing converge, so that the drainage hole 56 is free

explained in more detail. In the drawing shows remains.

F i g. 1 shows a side view of the measuring cell, 25 the measuring vessel 10 rests on the platform 74 of a

F i g. 2 is a plan view of this measuring cell, measuring and counting device, e.g. B. a Coulter counter

F i g. 3 is a schematic representation of a measurement on. The inner measuring vessel 76 is in the outer measuring

Tind counting device with the measuring cell, vessel 10 used, whereby the rounded

F i g. 4 shows a vertical section of the measuring cell. Place the bottom end 78 of the measuring vessel 76 on the ribs 72

The outer measuring vessel 10 of a measuring cell is placed after 30, whereby a centering and distance F i g. 3 is reached via a metallic drain pipe 14, a holder for the measuring vessels 10 and 76, trisch insulating pipe section 16 and a valve 12 on Thus remains between the side wall 80 of the measuring one Vacuum source connected. The metallic vessel 76 and the inner wall of the chamber 50 Drain pipe 14 serves as an electrode of the measuring and a clearance.

Counting device and is as such via a line 18 to 35. The measuring opening 84 is preferably connected in a to the usual measuring circuit 20. The inner, a flattened portion 82 of the measuring vessel 76 and the measuring vessel 76 is arranged so that its solid platelets 24 are attached. If now the microscopic opening 84, best shown in FIG. 4 advises is in operation, particles from the suspension can be seen, suspension can reach the inner measuring vessel 76, sion 70 through the measuring opening 84 to the suspension. Each retainer 86 through this measuring opening 84 inside the measuring vessel 76
1 passing particles generates a signal which is registered and evaluated in the measuring and counting device in the following the measuring circuit 20. Way used: First, the valve 66 is opened. In the measuring vessel 76 there is an electrode 26, which is opened by bringing the lever into position B , which is assumed through the line 28 to the measuring circuit 20 - Assuming that before in the chamber 52 one is closed. 45 sample suspension 70 was present, becomes the same

In the case of the measuring and counting device, a mercury is now sucked out of the chamber 52. Used by the suspension lifter 30, the mercury column 32 of which flows with sion 86 in the inner measuring vessel 76, nothing electrodes 34, 36 and 38 cooperate. When open, through the measuring opening 84. Subsequently, a valve 40 to the vacuum source connected to the inner measuring vessel, the valve 66 is closed by the movement of the lever 76, the Mercury 50 rises to position A or C. The new sample silver column 32 and thereby releases the measurement section suspension is released into the chamber 42 via the funnel 68. The measuring circuit 20 is grounded at 44. Introduced after 52. It is not necessary to remove the measuring vessel 76 from closing the valve 40 to remove the mercury or to lower the platform 74, column 32 and thereby sucking the suspension sample through the measuring opening 84 of the measuring vessel 76, as is normally the case with the so-called Coulter will. After the new mercury column 32 has been brought into contact with the sample suspension 70, the lever of the valve 66 is trode36, the measuring circuit 20, which, depending on the circumstances, is quickly connected to C or from the electrode 36 through the line 46 , C placed on A. This allows the suction vacuum to be switched on. When the mercury column momentarily draws part of the suspension 70 partially into the measuring section 42 of the mercury siphon 30 into the drain pipe 14, whereby a good one moves away, the outer measuring vessel 10 becomes an electrical contact between the sample suspension in the measured volume with the measuring opening 84 70 and the drain pipe 14 comes about. The provided measuring vessel 76 sucked in; but as soon as the discharge pipe 14 has a capillary or almost at least mercury column 32 touches the electrode 38, a capillary bore is made, so that the suspension is no longer switched off by the measuring circuit 20 via the line 48. 65 flows as up to a point 88 before the insulating

The outer measuring vessel 10 is made of insulating material, pipe section 16. The rest of the drain line, including such. B. a plastic or glass, with a zy- borrowed the valve 66, is from the drain pipe 14 eleklindrischen body part 50, which insulates a trisch in its interior. Usually there is further to that

Not shown here collecting tank leading pipeline made of a non-conductive material. Will but if an electrically conductive material is used for this, then the pipe section 16 from an electrically isolating material to isolate this discharge electrically. This is how related with F i g. 3 explains the usual measurement and counting done. The pattern can then be removed and another sample suspension introduced.

1 sheet of drawings

Claims (5)

used for particles suspended in a liquid> the subject of the earlier right to be valued- ^ German patent χ2W 905 ^ after this older right, among other things, the external measurement 1. Measuring cell for a device for measuring the number 5 vessel have an inlet and on the measuring vessel bottom one and size of outlet for the suspension suspended in a liquid. The particle counting device, the electrical conductivity of which differs from that of the liquid according to the older law, is to work continuously, with two intermingled and the liquids to be examined are to be conveyed through the measuring cell in a constant current set in relation to one another in their position - measuring vessels made of electrically insulating Material, io den. For this purpose, the one with the liquid inlet, of which the inner measuring vessel has a measuring opening flowed through at its upper end above the sample suspension, is closed and the liquid inlet is closed and the outer measuring vessel has an inlet and a small bottom opening for the outflow of excess at the measuring vessel bottom an outlet for the suspen liquid provided. From an uninterrupted arsion, and with the pump immersed in the suspension, liquid samples and an electrode on both sides of the measuring opening, the diluent via tubes to a tube which is connected to a power supply source and a measuring with the inlet and at the same time fluid circuit are connected, characterized by suction being conveyed through a tube which indicates that the outer measuring vessel (10) is connected to the outlet of the chamber, the lower end of the inner measuring vessel (76) 20 allowing a flow of liquid through the tube into the cell and adapted to above the measuring opening (84), by the restrictive aid to the outlet of the form that forms a narrow annular gap, has that cell is guided. Such a continuously working! on this part (50) of the outer measuring vessel tend cell device is complicated and accordingly ^ι! (ί (10) upwards a cast part (68) is expensive. and that one electrode is in the lockable 25 British patent specification 865 069 The outlet (14) of the outer measuring vessel (10) connects a measuring cell for a device for measuring the number is laying. and size of suspended in a liquid 2. Measuring cell according to claim 1, characterized known particles. The measuring cell is so marked there that the one electrode in the outlet detects that a larger amount of the sample suspension of the outer measuring vessel (10) is placed from a metal 30 into a beaker-shaped measuring vessel Drain pipe (14) is formed. ches movable in height in the counting and measuring device 3. Measuring cell according to claim 2, characterized in that it is ordered and that for the measuring process upwards draws that the drain pipe (14) is moved via a valve, whereby the inner and outer (12; 66) is connected to a vacuum source. and that between the drain pipe (14) and the 35 inside and outside measuring vessel are in the Suszur Vacuum source leading line an electric pension immersing electrodes available. The inisolating Pipe section (16) is switched. inner measuring vessel has the necessary measuring opening, 4. Measuring cell according to claim 1, characterized by which the suspension passes. The disadvantage is draws that at the bottom of the inner and that here only larger amounts of sample suspension outer measuring vessel limited chamber (52) Rip-40 can be examined and that also for pen (72) for spacing and centering each new measurement the outer measuring vessel in position the vessels (10, 76) are arranged. brought to the inner measuring vessel and before beginning a 5. Measuring cell according to claim 1, characterized in that the new measurement is moved downwards for emptying shows that the pouring part (68) must be funnel-shaped and removed. is trained. 45 The invention is based on the object of a To create a measuring cell of the type mentioned, which is used in successive measurements in the measuring device can remain and which is able to use even the smallest amounts of a sample suspension 50 examination to be able to apply. According to the invention, this object is achieved in that the outer measuring vessel is one of the lower End of the inner measuring vessel to above the measuring The invention relates to a measuring cell for a device opening adapted, forming a narrow annular gap for measuring the number and size of in a liquid 55 form that has on this part of the outer speed suspended particles, the electrical conducting measuring vessel upwards a pouring part connected ability differs from that of the liquid, and that the one electrode in the lockable Ausmit two nested, to each other in their let of the outer measuring vessel is relocated.
Position fixed measuring vessels from electrically isola- The invention offers the advantage that now the smallest rendem material, from which the inner measuring vessel 60 sample quantities can reach the investigation a measuring and handling of the measuring cell through which the sample suspension flows possesses and the outer measuring vessel is a simple one, since the position of the measuring vessels between and leave an outlet on the bottom of the measuring vessel for the individual measurements Has suspension, and must be included in the suspension. immersing electrodes on both sides of the measuring opening, 65. According to one embodiment of the invention, the connected to a power supply source and a measuring one electrode in the outlet of the external measuring circuit are connected. vessel of a metallic end tube ge-Such a measuring cell is formed in a counting device. This makes an additional reduction in price